CN107436680B - Method and device for switching application mode of vehicle-mounted device - Google Patents

Abstract

The application aims to provide a method and equipment for switching application modes of vehicle-mounted equipment, wherein input information of an operation user is acquired; identifying the input information to generate relevant instruction information; and switching the current application mode of the vehicle-mounted equipment based on the related instruction information, and performing at least any one operation of switching a broadcast channel, closing and storing corresponding information on the operation object according to the type of the operation object. And then, the current application mode of the vehicle-mounted equipment can be switched by the operation user through multi-mode control operation according to the scene requirement in the vehicle, so that the personal privacy information is protected, and misunderstanding of a fellow passenger is avoided.

Description

Method and device for switching application mode of vehicle-mounted device

Technical Field

The application relates to the field of automobiles, in particular to a technology for switching application modes of vehicle-mounted equipment.

Background

The automobile occupies an important position in daily life of people, and brings great convenience to people. And the application mode of the vehicle-mounted equipment under different environments is more and more demanded by users. For example, vehicle-mounted devices such as a T-box central console and an intelligent rearview mirror have an FM transmission function, and when the devices have bluetooth phone calls or voice interaction between the devices and people or the devices receive external information for automatic playing, the devices are usually played directly by using audio in the vehicle through an FM transmission channel. However, in the interaction scene between the vehicle owner and the vehicle-mounted electronic device, such as conversation or other information, personal privacy information is usually not convenient for others in the same vehicle to hear or see.

At present, when the vehicle-mounted equipment performs man-machine interaction, other playing functions cannot be normally used, for example, music in a vehicle stops during a call is turned on, FM emission is turned off or the volume of a loudspeaker of the vehicle-mounted equipment is reduced for personal privacy information, and a fellow passenger can easily notice the situation to cause misunderstanding.

Disclosure of Invention

The application aims to provide a method and equipment for switching an application mode of vehicle-mounted equipment, so that the problem that partial sound playing function is closed by one-key switching action is solved, the application mode is switched from non-privacy to privacy, personal privacy information is protected, and misunderstanding of a fellow passenger is avoided.

According to an aspect of the present application, there is provided a method for switching an application mode of an in-vehicle device, including:

acquiring input information of an operation user;

identifying the input information to generate relevant instruction information;

and switching the current application mode of the vehicle-mounted equipment based on the related instruction information, and performing at least any one operation of switching a broadcast channel, closing and storing corresponding information on the operation object according to the type of the operation object.

Further, the switching the current application mode of the vehicle-mounted device based on the relevant instruction information, and performing at least any one of operations of switching a broadcast channel, closing and storing corresponding information on the operation object according to the type of the operation object includes:

if the operation object is first voice interaction information, switching the current application mode of the vehicle-mounted equipment comprises performing operation processing of converting a broadcast channel on the operation object;

if the operation object is second voice interaction information, switching the current application mode of the vehicle-mounted equipment comprises at least any one operation processing of switching a broadcast channel of the operation object, closing the operation object and storing corresponding information, wherein the stored corresponding information comprises information to be broadcast, which is used for storing the operation object;

if the operation object is referred information, the switching of the current application mode of the vehicle-mounted equipment comprises storing corresponding information for the operation object, wherein the stored information comprises information to be referred for storing the operation object.

According to another aspect of the present application, there is also provided an apparatus for switching an application mode of an in-vehicle apparatus, including:

the acquisition device is used for acquiring input information of an operation user;

identifying means for identifying the input information to generate relevant instruction information;

and the processing device is used for switching the current application mode of the vehicle-mounted equipment based on the related instruction information, and performing at least any one operation of switching a broadcast channel, closing and storing corresponding information on the operation object according to the type of the operation object.

Further, the processing device comprises:

the first processing unit is used for switching the current application mode of the vehicle-mounted equipment to perform operation processing of converting a broadcast channel on the operation object if the operation object is the first voice interaction information;

the second processing unit is configured to, if the operation object is second voice interaction information, switch the current application mode of the vehicle-mounted device, including performing at least any one of operation processing of switching a broadcast channel to the operation object, closing the operation object, and storing corresponding information, where the stored corresponding information includes information to be broadcast, in which the operation object is stored;

and the third processing unit is used for switching the current application mode of the vehicle-mounted equipment if the operation object is the reference information, wherein the stored information comprises the information to be referred, which is used for storing the operation object.

Compared with the prior art, according to the method and the equipment, the input information of the operation user is obtained; identifying the input information to generate relevant instruction information; and switching the current application mode of the vehicle-mounted equipment based on the related instruction information, and performing at least any one operation of switching a broadcast channel, closing and storing corresponding information on the operation object according to the type of the operation object. And then, the requirement of an operation user on the scene in the vehicle can be met, the current application mode of the vehicle-mounted equipment can be switched through multi-mode control operation, and the rapid switching of the current application mode is realized.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 illustrates a schematic diagram of an apparatus for switching application modes of an in-vehicle device, according to one aspect of the subject application;

FIG. 2 shows a schematic structural diagram of a processing device 13 according to a preferred embodiment of an aspect of the present application;

FIG. 3 illustrates a flow diagram of a method for switching application modes of an in-vehicle device, according to yet another aspect of the present application;

fig. 4 shows a schematic flow chart of the method of step S13 according to a preferred embodiment of yet another aspect of the present application.

The same or similar reference numbers in the drawings identify the same or similar elements.

Detailed Description

The present application is described in further detail below with reference to the attached figures.

FIG. 1 illustrates a schematic diagram of an apparatus for switching application modes of an in-vehicle device, according to one aspect of the subject application; the device 1 comprises an acquisition device 11, a recognition device 12 and a processing device 13, wherein the acquisition device 11 acquires input information of an operation user; the recognition means 12 recognizes the input information to generate relevant instruction information; the processing device 13 switches the current application mode of the vehicle-mounted device based on the relevant instruction information, and performs at least any one of operations of switching a broadcast channel, closing and storing corresponding information on the operation object according to the type of the operation object.

Here, the device 1 includes, but is not limited to, any mobile electronic product or vehicle-mounted device capable of human-computer interaction with a user through a touch panel, such as a smart phone, a PDA, and the like, and the mobile electronic product may employ any operating system, such as an android operating system, an iOS operating system, and the like. Preferably, the device 1 may also be a script program running on the user device, or a device formed by integrating the user device and a network device, a touch terminal, or a network device and a touch terminal through a network. Of course, those skilled in the art will appreciate that the above-described apparatus 1 is merely exemplary, and that other existing or future existing apparatus 1, as may be suitable for use in the present application, are also intended to be encompassed within the scope of the present application and are hereby incorporated by reference.

The above devices continuously operate, and herein, those skilled in the art should understand that "continuously" means that the above devices respectively operate in real time or according to the set or real-time adjusted operating mode requirement, for example, the password generating device 11 continuously obtains the input information of the operating user by the obtaining device 11; the recognition means 12 continuously recognizes the input information to generate relevant instruction information; the processing device 13 switches the current application mode of the vehicle-mounted device continuously based on the relevant instruction information until the device completes the switching operation of the application mode of the vehicle-mounted device.

According to the application mode switching method and device, the device 1 is used for switching the application mode of the vehicle-mounted device, the device 1 identifies control information input by an operation user through multiple control modes of the operation user in the vehicle and then generates corresponding instruction information so as to switch the current application mode of the vehicle-mounted device, and therefore the requirement that the current application mode can be switched quickly for meeting the scene requirement in the vehicle is met.

Specifically, the acquisition means 11 acquires input information of the operation user.

In one embodiment, the operating user refers to a passenger in the vehicle, preferably a driver; the input information refers to control information input to the corresponding equipment by an operating user according to the scene requirements in the vehicle, for example, a bluetooth remote control device, a touch screen or equipment with voice interaction is provided in the vehicle, the operating user can press a preset switch key through a bluetooth remote controller according to the scene requirements in the vehicle, that is, the operating user inputs information on the set switch key through the bluetooth remote controller, so that the equipment acquires the input information to generate corresponding instruction information and performs corresponding operation processing on an operation object.

Preferably, the obtaining means 11 is configured to: and acquiring the input information of the operation user from a control module, wherein the control module comprises any one of a wireless remote control module, a touch module, a key module, a sensing control module and a voice interaction module.

In one embodiment, a control module is provided in a vehicle, and the control module at least comprises any one of the following: the device comprises a wireless remote control module, a touch control module, a key module, a sensing control module and a voice interaction module. The wireless remote control module such as Bluetooth, WIFI (wireless signal connection), NFC (near field communication) and the like comprises a remote controller in a near field wireless form used in a vehicle, a touch control module such as a touch screen, a key module such as control equipment with a keyboard, and a language interaction module such as a control module with a voice interaction function, and can input voice and voiceprint of a driver as input information to send an instruction; more preferably, the sensing control module includes: any one of the biological information identification sensing module and the gesture identification sensing module, wherein the fingerprint, pupil, iris and other related personal biological information of the driver is input into the biological information identification sensing module to serve as input information; or the driver inputs gesture information in the gesture recognition sensing module, and the gesture recognition sensing module recognizes the information.

It should be noted that, the control module may include any one of the wireless remote control module, the touch module, the key module, the sensing control module and the voice interaction module according to the scene requirement in the vehicle and the driver's own requirement, and the current application mode can be rapidly switched through one-time action of the driver, so as to meet the scene requirement in the vehicle.

It should be noted that the control module may be an independent device, but is connected to the vehicle-mounted device through a wired or wireless connection; or the control module carried by the vehicle-mounted equipment and used for acquiring the input information.

Specifically, the recognition means 12 recognizes the input information to generate the relevant instruction information.

Here, the operating user may have a plurality of control modules for selecting, input information in one of the control modes according to the requirements of the scene in the vehicle, and the recognition device 12 generates the relevant instruction information based on the control mode of the input information.

Preferably, the identification means 12 are used at least for any of: identifying input information of a specific switching key in a wireless remote control module of the operating user to generate instruction information for controlling the current application mode of the vehicle-mounted equipment; identifying the input information of the operation user in a switching key setting area of the touch module or the key module so as to generate instruction information corresponding to switching the current application mode; generating instruction information of a corresponding perception switch key by perceiving the input information of the operation user; and recognizing the voice information of the operation user by utilizing the voice recognition module so as to generate instruction information for controlling the current application mode.

In an embodiment, according to the needs of the in-vehicle scene, the association of different scenes in different modes is completed through software programming of the device, and one of the control modes is used to realize fast switching of the current application mode, in a preferred embodiment, the specific implementation mode may be as follows: the wireless remote controller sets a special switching key, and the identification device 12 identifies the input information of the specific switching key in the wireless remote controller by the operating user so as to generate instruction information for controlling the current application mode of the vehicle-mounted equipment; a special switching soft key is arranged in a corresponding area of the touch screen, or a special mode switching key is designed on the keyboard, when the operating user clicks the switching soft key or the mode switching key, the identification device 12 identifies input information to generate instruction information corresponding to switching of the current application mode; and recognizing the voice information of the operating user by using the voice recognition module, such as the voice voiceprint of the operating user, so as to generate instruction information for controlling the current application mode.

More preferably, the instruction information for generating the corresponding sensing switch key by sensing the input information of the operation user includes at least any one of: sensing specific biological information of the operating user by using the biological information identification sensing module to identify the input information so as to generate instruction information of a corresponding sensing switching key; and recognizing the input information by sensing the specific gesture information of the operating user by using the gesture recognition sensing module so as to generate corresponding instruction information of sensing the switching key.

Here, preferably, the specific biological information includes: at least any one of fingerprint information, pupil information, and iris information. In one embodiment, corresponding switching instruction information is generated by sensing specific biological information of relevant individuals such as fingerprints, pupils or irises of corresponding operation users; or sensing a specific gesture of the operation user, and further generating instruction information of mode switching.

Specifically, the processing device 13 switches the current application mode of the vehicle-mounted device based on the relevant instruction information, and performs at least any one of operations of switching a broadcast channel, closing and storing corresponding information on an operation object according to the type of the operation object.

Here, the input information of various modes is identified to generate corresponding instruction information by selecting a plurality of instruction modes of the operation user, and the corresponding current application mode is switched according to the corresponding instruction information, for example, the operation object may be closed or the corresponding information of the operation object may be stored for subsequent viewing, or a broadcast channel mode for broadcasting the operation object may be converted.

FIG. 2 shows a schematic structural diagram of a processing device 13 according to a preferred embodiment of an aspect of the present application; the processing device 13 includes a first processing unit 131, a second processing unit 132, and a third processing unit 133. The first processing unit 131 is configured to, if the operation object is the first voice interaction information, switch the current application mode of the vehicle-mounted device, including performing operation processing of switching a broadcast channel for the operation object; the second processing unit 132 is configured to, if the operation object is the second voice interaction information, switch the current application mode of the vehicle-mounted device, where the switching includes performing at least any one of operation processing of switching a broadcast channel to the operation object, closing the operation object, and storing corresponding information, where the storing corresponding information includes storing information to be broadcast of the operation object; the third processing unit 133 is configured to, if the operation object is reference information, switch the current application mode of the vehicle-mounted device, including storing corresponding information for the operation object, where the stored information includes information to be referred, in which the operation object is stored.

In a preferred embodiment, the first voice interaction information is voice interaction information that needs real-time communication currently, for example, a telephone, when an operating user and a fellow passenger listen to music using an FM channel, if the operating user has a telephone, the operating user closes a playback function of part of voice through one of the multiple control modes, and switches a broadcast channel for a call, for example, to a mobile phone or a bluetooth headset connected to the mobile phone for listening, so as to realize switching from a non-private application mode to a private application mode. The second voice interaction information is interaction information which can carry out real-time conversation and can also carry out subsequent information sending, for example, short message broadcasting, voice interaction of an instant chat tool and the like, when a short message comes in to prompt whether broadcasting is needed, an operation object adopts one of a plurality of control instruction modes to switch the current application mode, namely, the broadcasting function of the short message to be broadcasted is closed, or a broadcasting channel is converted to listen to the content of the short message, or the short message to be broadcasted is hidden and stored, and then the short message to be broadcasted is checked and read subsequently. When the voice interaction of the instant chat tool is carried out, the voice content to be broadcasted can be broadcasted through other channels, or the voice content to be broadcasted is closed, the voice content of the instant chat tool can be stored, the instant chat tool is not broadcasted temporarily, and the instant chat tool is viewed subsequently. If the operation object is the query information, wherein the query information can comprise short message content and display information of an instant chat tool, the operation user selects a wireless remote controller or a touch screen or equipment with voice interaction to perform input instruction information of switching operation, and stores corresponding information, such as short message content or display information of the instant chat tool, so as to facilitate subsequent query, wherein the storing of the corresponding information comprises closing the information to be queried according to whether prompting is performed to store the information locally, and performing subsequent query reading, and the method further comprises hiding the information to be queried and performing subsequent playback reading.

It should be noted that the first voice interaction information, the second voice interaction information, and the reference information are only examples of the operation objects, and of course, any operation object that may be suitable for the present application now or later may be included in the present application by reference.

In a preferred embodiment described in the present application, the operating user can set according to personal habits and needs of scenes in the vehicle, and can press keys through the wireless remote controller, or click the touch screen, or through voice control, or sense personal biological identification information or specific gesture information, etc., and the function of releasing part of the sound is closed by one-time action, thereby realizing the fast switching between the non-privacy application mode and the privacy application mode, not influencing the functions of music, etc. still needed by fellow passengers, and simultaneously not drawing attention of the fellow passengers, avoiding misunderstanding of the fellow passengers, and embodying the respect of both parties.

FIG. 3 illustrates a flow diagram of a method for switching application modes of an in-vehicle device, according to yet another aspect of the present application; the method includes steps S11, S12, and S13, wherein in step S11, input information of an operation user is acquired; in step S12, recognizing the input information to generate relevant instruction information; in step S13, the current application mode of the in-vehicle device is switched based on the relevant instruction information, and at least any one of the operations of switching the broadcast channel, closing and storing the corresponding information is performed on the operation object according to the type of the operation object.

The method is used for switching the application modes of the vehicle-mounted equipment, and the control information input by the operation user is identified through various control modes of the vehicle-mounted operation user so as to generate corresponding instruction information, so that the current application mode of the vehicle-mounted equipment is switched, and the requirement that the current application mode can be quickly switched to meet the requirements of the scene in the vehicle is met.

Specifically, in step S11, input information of the operation user is acquired.

In one embodiment, the operating user refers to a passenger in the vehicle, preferably a driver; the input information refers to control information input to the corresponding equipment by an operating user according to the scene requirements in the vehicle, for example, a bluetooth remote control device, a touch screen or equipment with voice interaction is provided in the vehicle, the operating user can press a preset switch key through a bluetooth remote controller according to the scene requirements in the vehicle, that is, the operating user inputs information on the set switch key through the bluetooth remote controller, so that the equipment acquires the input information to generate corresponding instruction information and performs corresponding operation processing on an operation object.

Preferably, the step S11 includes: and acquiring the input information of the operation user from a control module, wherein the control module comprises any one of a wireless remote control module, a touch module, a key module, a sensing control module and a voice interaction module.

In one embodiment, a control module is provided in a vehicle, the control module comprising: any one of the wireless remote control module, the touch control module, the key module, the sensing control module and the voice interaction module. The wireless remote control module such as Bluetooth, WIFI (wireless signal connection), NFC (near field communication) and the like comprises a remote controller in a near field wireless form used in a vehicle, a touch control module such as a touch screen, a key module such as control equipment with a keyboard, and a language interaction module such as a control module with a voice interaction function, and can input voice and voiceprint of a driver as input information to send an instruction; more preferably, the sensing control module includes: any one of the biological information identification sensing module and the gesture identification sensing module, wherein the fingerprint, pupil, iris and other related personal biological information of the driver is input into the biological information identification sensing module to serve as input information; or the driver inputs gesture information in the gesture recognition sensing module, and the gesture recognition sensing module recognizes the information.

It should be noted that, the control module may include any one of the wireless remote control module, the touch module, the key module, the sensing control module and the voice interaction module according to the scene requirement in the vehicle and the driver's own requirement, and the current application mode can be rapidly switched through one-time action of the driver, so as to meet the scene requirement in the vehicle.

It should be noted that the control module may be an independent device, but is connected to the vehicle-mounted device through a wired or wireless connection; or the control module carried by the vehicle-mounted equipment and used for acquiring the input information.

Specifically, in step S12, the input information is recognized to generate the relevant instruction information.

Here, the operating user may select various control modules, and input information through one of the control modes according to the requirement of the in-vehicle scene, so that the relevant instruction information is generated based on the control mode of the input information in step S12.

Preferably, the identifying the input information to generate relevant instruction information is for at least any one of: identifying input information of a specific switching key in a wireless remote control module of the operating user to generate instruction information for controlling the current application mode of the vehicle-mounted equipment; identifying the input information of the operation user in a switching key setting area of the touch module or the key module so as to generate instruction information corresponding to switching the current application mode; generating instruction information of a corresponding perception switch key by perceiving the input information of the operation user; and recognizing the voice information of the operation user by utilizing the voice recognition module so as to generate instruction information for controlling the current application mode.

In an embodiment, according to the needs of the in-vehicle scene, the association of different scenes in different modes is completed through software programming of the device, and one of the control modes is used to realize fast switching of the current application mode, in a preferred embodiment, the specific implementation mode may be as follows: setting a special switching key by the wireless remote controller, and identifying the input information of the specific switching key in the wireless remote controller by the operating user in step S12 to generate instruction information for controlling the current application mode of the vehicle-mounted equipment; setting a special switching soft key in a corresponding area of the touch screen, or designing a special mode switching key on the keyboard, and when the operating user clicks the switching soft key or the mode switching key, identifying input information to generate instruction information corresponding to switching of the current application mode in step S12; and recognizing the voice information of the operating user by using the voice recognition module, such as the voice voiceprint of the operating user, so as to generate instruction information for controlling the current application mode.

More preferably, the instruction information for generating the corresponding sensing switch key by sensing the input information of the operation user includes at least any one of: sensing specific biological information of the operating user by using the biological information identification sensing module to identify the input information so as to generate instruction information of a corresponding sensing switching key; and recognizing the input information by sensing the specific gesture information of the operating user by using the gesture recognition sensing module so as to generate corresponding instruction information of sensing the switching key.

Here, preferably, the specific biological information includes: at least any one of fingerprint information, pupil information, and iris information. In one embodiment, corresponding switching instruction information is generated by sensing specific biological information of relevant individuals such as fingerprints, pupils or irises of corresponding operation users; or sensing a specific gesture of the operation user, and further generating instruction information of mode switching.

Specifically, in step S13, the current application mode of the vehicle-mounted device is switched based on the relevant instruction information, and at least any one of the operations of switching the broadcast channel, closing and storing the corresponding information is performed on the operation object according to the type of the operation object.

Here, the input information of various modes is identified to generate corresponding instruction information by selecting a plurality of instruction modes of the operation user, and the corresponding current application mode is switched according to the corresponding instruction information, for example, the operation object may be closed or the corresponding information of the operation object may be stored for subsequent viewing, or a broadcast channel mode for broadcasting the operation object may be converted.

FIG. 4 shows a schematic flow chart of a method of step S13 according to a preferred embodiment of yet another aspect of the present application; the step S13 includes a step S131, a step S132, and a step S133. In step S131, if the operation object is the first voice interaction information, the switching of the current application mode of the vehicle-mounted device includes performing an operation process of switching a broadcast channel for the operation object; in step S132, if the operation object is the second voice interaction information, the switching of the current application mode of the vehicle-mounted device includes performing at least any one of operation processing of switching a broadcast channel to the operation object, closing the operation object, and storing corresponding information, where the stored corresponding information includes information to be broadcast, in which the operation object is stored; in step S133, if the operation object is reference information, the switching of the current application mode of the vehicle-mounted device includes storing corresponding information for the operation object, where the stored information includes information to be referred, in which the operation object is stored.

In a preferred embodiment, the first voice interaction information is voice interaction information that needs real-time communication currently, for example, a telephone, when an operating user and a fellow passenger listen to music using an FM channel, if the operating user has a telephone, the operating user closes a playback function of part of voice through one of the multiple control modes, and switches a broadcast channel for a call, for example, to a mobile phone or a bluetooth headset connected to the mobile phone for listening, so as to realize switching from a non-private application mode to a private application mode. The second voice interaction information is interaction information which can carry out real-time conversation and can also carry out subsequent information sending, for example, short message broadcasting, voice interaction of an instant chat tool and the like, when a short message comes in to prompt whether broadcasting is needed, an operation object adopts one of a plurality of control instruction modes to switch the current application mode, namely, the broadcasting function of the short message to be broadcasted is closed, or a broadcasting channel is converted to listen to the content of the short message, or the short message to be broadcasted is hidden and stored, and then the short message to be broadcasted is checked and read subsequently. When the voice interaction of the instant chat tool is carried out, the voice content to be broadcasted can be broadcasted through other channels, or the voice content to be broadcasted is closed, the voice content of the instant chat tool can be stored, the instant chat tool is not broadcasted temporarily, and the instant chat tool is viewed subsequently. If the operation object is the query information, wherein the query information can comprise short message content and display information of an instant chat tool, the operation user selects a wireless remote controller or a touch screen or equipment with voice interaction to perform input instruction information of switching operation, and stores corresponding information, such as short message content or display information of the instant chat tool, so as to facilitate subsequent query, wherein the storing of the corresponding information comprises closing the information to be queried according to whether prompting is performed to store the information locally, and performing subsequent query reading, and the method further comprises hiding the information to be queried and performing subsequent playback reading.

It should be noted that the first voice interaction information, the second voice interaction information, and the reference information are only examples of the operation objects, and of course, any operation object that may be suitable for the present application now or later may be included in the present application by reference.

In a preferred embodiment described in the present application, the operating user can set according to personal habits and needs of scenes in the vehicle, and can press keys through the wireless remote controller, or click the touch screen, or through voice control, or sense personal biological identification information or specific gesture information, etc., and the function of releasing part of the sound is closed by one-time action, thereby realizing the fast switching between the non-privacy application mode and the privacy application mode, not influencing the functions of music, etc. still needed by fellow passengers, and simultaneously not drawing attention of the fellow passengers, avoiding misunderstanding of the fellow passengers, and embodying the respect of both parties.

It should be noted that the present application may be implemented in software and/or a combination of software and hardware, for example, implemented using Application Specific Integrated Circuits (ASICs), general purpose computers or any other similar hardware devices. In one embodiment, the software programs of the present application may be executed by a processor to implement the steps or functions described above. Likewise, the software programs (including associated data structures) of the present application may be stored in a computer readable recording medium, such as RAM memory, magnetic or optical drive or diskette and the like. Additionally, some of the steps or functions of the present application may be implemented in hardware, for example, as circuitry that cooperates with the processor to perform various steps or functions.

In addition, some of the present application may be implemented as a computer program product, such as computer program instructions, which when executed by a computer, may invoke or provide methods and/or techniques in accordance with the present application through the operation of the computer. Program instructions which invoke the methods of the present application may be stored on a fixed or removable recording medium and/or transmitted via a data stream on a broadcast or other signal-bearing medium and/or stored within a working memory of a computer device operating in accordance with the program instructions. An embodiment according to the present application comprises an apparatus comprising a memory for storing computer program instructions and a processor for executing the program instructions, wherein the computer program instructions, when executed by the processor, trigger the apparatus to perform a method and/or a solution according to the aforementioned embodiments of the present application.

It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. A plurality of units or means recited in the apparatus claims may also be implemented by one unit or means in software or hardware. The terms first, second, etc. are used to denote names, but not any particular order.

Claims (12)

1. A method for switching an application mode of an in-vehicle apparatus, wherein the method comprises:

acquiring input information of an operation user;

identifying the input information to generate relevant instruction information;

switching the current application mode of the vehicle-mounted equipment based on the related instruction information, and performing at least any one operation of switching a broadcast channel, closing and storing corresponding information on an operation object according to the type of the operation object, wherein,

if the operation object is first voice interaction information, switching the current application mode of the vehicle-mounted equipment comprises performing operation processing of converting a broadcast channel on the operation object;

if the operation object is second voice interaction information, switching the current application mode of the vehicle-mounted equipment comprises performing at least any one operation processing of switching a broadcast channel on the operation object, closing the operation object and storing corresponding information, wherein the stored corresponding information comprises information to be broadcast, which is used for storing the operation object;

if the operation object is referred information, switching the current application mode of the vehicle-mounted equipment comprises storing corresponding information for the operation object, wherein the stored corresponding information comprises storing information to be referred of the operation object.

2. The method of claim 1, wherein the obtaining input information of the operating user comprises:

and acquiring the input information of the operation user from a control module, wherein the control module comprises any one of a wireless remote control module, a touch module, a key module, a sensing control module and a voice interaction module.

3. The method of claim 2, wherein the sensing control module comprises: any one of the biological information recognition sensing module and the gesture recognition sensing module.

4. The method of claim 3, wherein the identifying the input information to generate relevant instruction information comprises at least any one of:

identifying input information of a specific switching key in a wireless remote control module of the operating user to generate instruction information for controlling the current application mode of the vehicle-mounted equipment;

identifying the input information of the operation user in a switching key setting area of the touch module or the key module so as to generate instruction information corresponding to switching the current application mode;

generating instruction information of a corresponding perception switch key by perceiving the input information of the operation user;

and recognizing the voice information of the operating user by using a voice recognition module to generate instruction information for controlling the current application mode.

5. The method according to claim 4, wherein the instruction information for generating the corresponding sensing switch key by sensing the input information of the operation user includes at least any one of:

sensing specific biological information of the operating user by using the biological information identification sensing module to identify the input information so as to generate instruction information of a corresponding sensing switching key;

and recognizing the input information by sensing the specific gesture information of the operating user by using the gesture recognition sensing module so as to generate corresponding instruction information of sensing the switching key.

6. The method of claim 5, wherein the specific biological information comprises:

at least any one of fingerprint information, pupil information, and iris information.

7. An apparatus for switching an application mode of an in-vehicle apparatus, wherein the apparatus comprises:

the acquisition device is used for acquiring input information of an operation user;

identifying means for identifying the input information to generate relevant instruction information;

the processing device is used for switching the current application mode of the vehicle-mounted equipment based on the related instruction information, and performing at least any one operation of switching a broadcast channel, closing and storing corresponding information on an operation object according to the type of the operation object;

the first processing unit is used for switching the current application mode of the vehicle-mounted equipment to perform operation processing of converting a broadcast channel on the operation object if the operation object is the first voice interaction information;

the second processing unit is configured to, if the operation object is second voice interaction information, switch the current application mode of the vehicle-mounted device, including performing at least any one of operation processing of switching a broadcast channel to the operation object, closing the operation object, and storing corresponding information, where the stored corresponding information includes information to be broadcast, in which the operation object is stored;

and the third processing unit is used for switching the current application mode of the vehicle-mounted equipment if the operation object is the reference information, wherein the corresponding information for storing comprises the information to be referred for storing the operation object.

8. The apparatus of claim 7, wherein the obtaining means is configured to:

acquiring input information of the operation user from a control module, wherein the control module comprises: any one of the wireless remote control module, the touch control module, the key module, the sensing control module and the voice interaction module.

9. The apparatus of claim 8, wherein the sensing control module comprises: any one of the biological information recognition sensing module and the gesture recognition sensing module.

10. The apparatus of claim 9, wherein the identifying means is at least for any one of:

identifying input information of a specific switching key in a wireless remote control module of the operating user to generate instruction information for controlling the current application mode of the vehicle-mounted equipment;

identifying the input information of the operation user in a switching key setting area of the touch module or the key module so as to generate instruction information corresponding to switching the current application mode;

generating instruction information of a corresponding perception switch key by perceiving the input information of the operation user;

and recognizing the voice information of the operating user by using a voice recognition module to generate instruction information for controlling the current application mode.

11. The apparatus according to claim 10, wherein the instruction information for generating the corresponding sensing switch key by sensing the input information of the operation user includes at least any one of:

sensing specific biological information of the operating user by using the biological information identification sensing module to identify the input information so as to generate instruction information of a corresponding sensing switching key;

and recognizing the input information by sensing the specific gesture information of the operating user by using the gesture recognition sensing module so as to generate corresponding instruction information of sensing the switching key.

12. The apparatus of claim 11, wherein the specific bio-information comprises:

at least any one of fingerprint information, pupil information, and iris information.

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