CN114640873A - Control method and device - Google Patents

Abstract

The application discloses a control method and a control device, wherein the method comprises the following steps: determining usage information of a first electronic device, the usage information including operation information acting on the first electronic device for controlling a second electronic device; obtaining operation information of the second electronic equipment; controlling a usage mode of the first electronic device based on the usage information and the operation information; wherein the second electronic device responds differently to the same operation acting on the first electronic device in different usage modes.

Description

Control method and device

Technical Field

The present application relates to the field of control technologies, and in particular, to a control method and apparatus.

Background

Currently, many homes and offices adopt large-screen display for the comfort and convenience of watching. In the process of large-screen display, a user usually operates and controls the display content on the large screen through a remote controller. However, the traditional remote controller mostly adopts the form of physical keys to provide control functions, and for users, the way of displaying contents through key operation is not only mechanically cumbersome, but also has low efficiency, so that the use requirements of users are difficult to meet.

Disclosure of Invention

In view of this, the present application provides the following technical solutions:

a control method, comprising:

determining usage information of a first electronic device, the usage information including operation information acting on the first electronic device for controlling a second electronic device;

obtaining operation information of the second electronic equipment;

controlling a usage mode of the first electronic device based on the usage information and the operation information;

wherein, under different usage modes, the response result of the second electronic device to the same operation acted on the first electronic device is different.

Optionally, the controlling the usage mode of the first electronic device based on the usage information and the operation information includes:

if the first electronic equipment is in a first use posture and the second electronic equipment runs a first type application, controlling the first electronic equipment to be in a first use mode; or the like, or, alternatively,

if the first electronic equipment is in the first use posture and the second electronic equipment runs the second type application, controlling the first electronic equipment to be in a second use mode; or the like, or, alternatively,

if the first electronic device is in the second use posture and the second electronic device runs the first type application, controlling the first electronic device to be in a third use mode; or the like, or, alternatively,

and if the first electronic equipment is in the second use posture and the second electronic equipment runs the second type application, controlling the first electronic equipment to be in a fourth use mode.

Optionally, the controlling the usage mode of the first electronic device based on the usage information and the operation information includes:

if the second electronic device runs a first type application and the first electronic device is executed with a first operation, controlling the first electronic device to be in a first use mode or a second use mode based on an operation parameter of the first operation; or the like, or a combination thereof,

if the second electronic device runs a second type of application and the first electronic device is executed with a second operation, controlling the first electronic device to be in a third use mode or a fourth use mode based on an operation parameter of the second operation;

wherein the first operation and the second operation are the same or different.

Optionally, the controlling the usage mode of the first electronic device based on the usage information and the operation information includes:

determining usage scenario information of the first electronic device based on at least the number of second electronic devices controlled by the first electronic device, and controlling a usage mode of the first electronic device based on the usage scenario information and the operation information; or the like, or, alternatively,

obtaining usage mode switching information acting on the first electronic device, and controlling the usage mode of the first electronic device based on the usage mode switching information and the operation information; or the like, or, alternatively,

and obtaining the using time length information of the first electronic equipment, and controlling the using mode of the first electronic equipment based on the using time length information and the running information.

Optionally, the controlling the usage mode of the first electronic device based on the usage information and the operation information includes:

obtaining screen information of a second electronic device, and controlling the use mode of the first electronic device based on the use information, the operation information and the screen configuration information; or the like, or, alternatively,

and obtaining the relevance between the first content and the second content currently displayed by the second electronic equipment, and controlling the use mode of the first electronic equipment based on the use information and the relevance.

Optionally, the controlling the usage mode of the first electronic device based on the usage information and the operation information includes:

configuring the same or different usage modes for the first control area and the second control area based on the usage information and the operation information, wherein,

under the same use mode, the control signals triggered by the first control area and the second control area have no relevance;

under different use modes, the control signals triggered by the first control area and the second control area have correlation or do not have correlation.

Optionally, configuring the same or different usage modes for the first control area and the second control area based on the usage information and the operation information includes:

if the usage information represents that the first electronic device is used for controlling two independent display areas on a display screen of the second electronic device, configuring the same usage mode for the first control area and the second control area based on the operating parameters of the first control area and the second control area and the respective operation information of the two independent display areas; or the like, or, alternatively,

if the usage information represents that the first electronic device is used for controlling a full-screen display area of the second electronic device, configuring different usage modes for the first control area and the second control area based on the operating parameters of the first control area and the second control area and the running information of the full-screen display area.

Optionally, configuring the same or different usage modes for the first control area and the second control area based on the usage information and the operation information includes:

and if the use information represents that the first electronic equipment is used for two operators to control two second electronic equipment, configuring the same or different use modes for the first control area and the second control area based on the operating parameters acted on the first control area and the second control area by the two operators and the respective operation information of the two second electronic equipment.

Optionally, the method further comprises:

obtaining change information of the first electronic device and the second electronic device, and adjusting the use mode of the first electronic device based on the change information;

wherein the change information includes at least one of:

position change information between the first electronic device and the second electronic device; or the like, or, alternatively,

number change information of the first electronic device and the second electronic device; or the like, or, alternatively,

location change information between the second electronic devices; or the like, or a combination thereof,

and the display screen change information of the second electronic equipment.

The application also discloses a control device, includes:

the electronic device comprises an information determining module, a first processing module and a second processing module, wherein the information determining module is used for determining use information of a first electronic device, and the use information comprises operation information which acts on the first electronic device and is used for controlling a second electronic device;

the information obtaining module is used for obtaining the operation information of the second electronic equipment;

a mode control module for controlling a usage mode of the first electronic device based on the usage information and the operation information;

wherein, under different usage modes, the response result of the second electronic device to the same operation acted on the first electronic device is different.

Further, the present application also discloses an electronic device, including:

a processor;

a memory for storing executable program instructions of the processor;

wherein the executable program instructions comprise: determining usage information of a first electronic device, the usage information including operation information acting on the first electronic device for controlling a second electronic device; obtaining operation information of the second electronic equipment; controlling a usage mode of the first electronic device based on the usage information and the operation information; wherein, under different usage modes, the response result of the second electronic device to the same operation acted on the first electronic device is different.

As can be seen from the foregoing technical solutions, compared with the prior art, an embodiment of the present application discloses a control method and apparatus, where the method includes: determining usage information of a first electronic device, the usage information including operation information acting on the first electronic device for controlling a second electronic device; obtaining operation information of the second electronic equipment; controlling a usage mode of the first electronic device based on the usage information and the operation information; wherein, under different usage modes, the response result of the second electronic device to the same operation acted on the first electronic device is different. In this realization, can determine first electronic equipment's user mode based on the selection of first electronic equipment's use information and second electronic equipment's operation information self-adaptation, under this user mode, the user can be more convenient control second electronic equipment through first electronic equipment, has promoted user control second electronic equipment's efficiency, has also strengthened first electronic equipment's intellectuality and function diversification, has optimized user experience.

Drawings

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

FIG. 1 is a flow chart of a control method disclosed in an embodiment of the present application;

fig. 2 is an illustration of an implementation of different usage modes of a first electronic device disclosed in an embodiment of the present application;

FIG. 3 is a flow chart of another control method disclosed in the embodiments of the present application;

fig. 4 is a schematic structural diagram of a control device disclosed in an embodiment of the present application;

fig. 5 is a schematic structural diagram of an electronic device disclosed in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 application.

The embodiment of the application can be applied to electronic equipment, and the application does not limit the product form of the electronic equipment, for example, the first electronic equipment can be remote control equipment, and the specific product form of the remote control equipment is not fixedly limited, and can include but is not limited to a remote control panel, a remote control pen, a remote controller with an entity key or without an entity case, and the like; the second electronic device may include, but is not limited to, a display screen, a television, a Personal Computer (PC), a netbook, etc., and may be selected according to application requirements.

Fig. 1 is a flowchart of a control method disclosed in an embodiment of the present application. Referring to fig. 1, the control method may include:

step 101: determining usage information of a first electronic device, the usage information comprising operational information acting on the first electronic device for controlling a second electronic device.

As described above, the first electronic device may be a remote control device, which may generate a corresponding remote control signal and perform corresponding control on the second electronic device after receiving a trigger operation of a user. Because the current electronic devices are applied in a variety of ways and in different application scenes, the traditional mechanical key type remote control mode cannot meet the current increasingly complex use requirements. Based on this, the control method provided by the embodiment of the application provides a more convenient implementation for controlling the second electronic device for the user.

The usage information of the first electronic device may include, but is not limited to, usage behavior information, usage mode switching information, usage duration information, usage scenario information, and the like, and the usage information can assist in determining a willingness or tendency of a user to the usage mode of the first electronic device, or can assist in determining a usage mode that is currently more suitable for the user.

The operation information belongs to the usage behavior information, and may include, but is not limited to, an operation posture of the first electronic device and operation behavior data on the first electronic device. It can be understood that the appearance of the first electronic device can be designed into different shapes, and the first electronic device can distinguish the operation postures if the appearance of the first electronic device can distinguish different directivities. For example, for a circular remote control, without logo assistance, the direction cannot be distinguished no matter how the user holds it; for a rectangular remote controller, the display mode can be a vertical screen display mode in a vertical holding posture and a horizontal holding posture, for example, in a normal operation scene of a smart phone, and the display mode is usually a horizontal screen display mode when watching a movie.

Step 102: and obtaining the operation information of the second electronic equipment.

The second electronic device comprises a display screen, display content is arranged on the display screen, and a user can control the display content on the display screen based on the first electronic device.

The operation information of the second electronic device may include information of an application currently running on the second electronic device. The operation information of the second electronic device needs to be obtained because different applications have different application characteristics and display modes during operation. For example, in some application scenarios, if a display interface includes a plurality of triggerable units distributed very compactly, the cursor movement precision is required to be higher, so as to better identify each triggerable unit, which is convenient for the user to operate; in such a scenario, a relative coordinate mode may be employed to control movement of a cursor on a display screen of the second electronic device; of course, here, the position movement of the cursor is controlled by the first electronic device, i.e. the remote controller, and the relative coordinate mode is also determined for the usage mode of the remote controller. For scenes in which the distribution of the triggerable units in the display interface is sparse and the controllable content is limited, the movement of a cursor on a display screen of the second electronic equipment can be controlled by adopting an absolute coordinate mode; likewise, the absolute coordinate mode is also determined for the usage mode of the remote controller.

Therefore, in this step, the operation information of the second electronic device needs to be obtained to better determine the characteristics of the currently-operated application (the operation application having the corresponding display interface on the display screen) of the second electronic device, so as to assist in determining the usage mode of the first electronic device that is more suitable for the current scene.

Step 103: controlling a usage mode of the first electronic device based on the usage information and the operation information.

Wherein, under different usage modes, the response result of the second electronic device to the same operation acted on the first electronic device is different. For example, when the first electronic device is in the absolute coordinate mode, the finger of the user slides on the touchpad of the first electronic device for a first distance, and the cursor on the second electronic device moves by 10 cm; and when the first electronic device is in the relative coordinate mode, the finger of the user also slides on the touchpad of the first electronic device for the length of the first distance, and the cursor on the second electronic device only moves by 5 cm.

After the usage information of the first electronic device and the operation information of the second electronic device are determined, the most appropriate usage mode of the first electronic device may be determined based on the usage information and the operation information, and the first electronic device may be controlled to operate in the determined usage mode. The control described herein may include switching and maintaining. That is, when the determined most suitable usage mode is the same as the current usage mode, the current usage mode is directly maintained; and when the determined most suitable use mode is not the same as the current use mode, controlling the current use mode to be switched into the most suitable use mode.

How to control the usage mode of the first electronic device based on the usage information and the operation information will be described in detail in the following embodiments, and will not be described in detail here.

According to the control method, the use mode of the first electronic equipment can be determined based on the use information of the first electronic equipment and the self-adaptive selection of the running information of the second electronic equipment, and under the use mode, a user can more conveniently control the second electronic equipment through the first electronic equipment, so that the efficiency of the user in controlling the second electronic equipment is improved, the intellectualization and the function diversification of the first electronic equipment are enhanced, and the user experience is optimized.

For the convenience of holding, the remote controller device is usually configured in a rectangular parallelepiped shape or an elliptic cylindrical shape, and there are two use postures of such a remote controller, i.e., a vertical holding posture and a horizontal holding posture. The use posture of the remote controller can be detected and determined by an acceleration sensor arranged in the remote controller. Fig. 2 is an explanatory diagram of implementation of different usage modes of the first electronic device disclosed in the embodiment of the present application, and for better understanding of the implementation of the present application, in conjunction with fig. 2, implementation of different usage postures of the first electronic device will be separately described below.

In the above embodiment, the controlling the usage mode of the first electronic device based on the usage information and the operation information may include: and if the first electronic equipment is in the first use posture and the second electronic equipment runs the first type application, controlling the first electronic equipment to be in a first use mode.

Wherein the first use posture can be a vertical holding use posture. For example, the first electronic device is in a vertical holding use gesture, the first type of applications run by the second electronic device are game applications, video applications and other applications which only need simple operation or rough control, and then the first electronic device can be controlled to be in a full-screen absolute coordinate mode. In a full-screen absolute coordinate mode, the touch area of the first electronic device and the entire display area of the second electronic device have a one-to-one position mapping relationship.

Alternatively, controlling the usage mode of the first electronic device based on the usage information and the operation information may include: and if the first electronic equipment is in the first use posture and the second electronic equipment runs the second type application, controlling the first electronic equipment to be in a second use mode.

For example, the first electronic device is in a vertical holding use posture, the second type of application run by the second electronic device is office application, and the first electronic device can be controlled to be in a full-screen relative coordinate mode due to the fact that the control accuracy requirement of the office application is higher. In the full-screen relative coordinate mode, the touch area of the first electronic device and the display area of the second electronic device do not have a certain position mapping relationship, and a cursor displayed on the display screen of the second electronic device moves correspondingly based on the movement of the user on the touch area of the first electronic device.

Alternatively, the controlling the usage mode of the first electronic device based on the usage information and the operation information may include: and if the first electronic equipment is in the second use posture and the second electronic equipment runs the first type application, controlling the first electronic equipment to be in a third use mode.

Wherein the second use posture can be a horizontal holding use posture. In the horizontal holding use posture, in one scene, the first electronic device includes two left and right touchable regions, and the two left and right touchable regions are respectively used for correspondingly controlling a left half screen and a right half screen of the second electronic device. In this scenario, the display content of the second electronic device may include two cursors, one cursor being located in the left half-screen area and the other cursor being located in the right half-screen area. For example, the first electronic device is in a use posture of a horizontal holding, the first type of applications run by the second electronic device are game applications, video applications and other applications requiring simple operation or rough control, and then the first electronic device can be controlled to be in a half-screen absolute coordinate mode. In the half-screen absolute coordinate mode, each touch area and a display area of the second electronic device corresponding to the half-screen have a one-to-one position mapping relationship.

Alternatively, controlling the usage mode of the first electronic device based on the usage information and the operation information may include: and if the first electronic equipment is in the second use posture and the second electronic equipment runs the second type application, controlling the first electronic equipment to be in a fourth use mode.

In the other scenario of the handshake use gesture, the first electronic device includes two left and right touchable regions, one of the two touchable regions is used for controlling the moving direction and the moving distance of the cursor, and the other touchable region is used for controlling the double-speed implementation of the cursor movement. For example, the first electronic device is in a use posture of a horizontal grip, and the second type of application run by the second electronic device is an application with higher control accuracy requirement, such as an office application, and therefore the first electronic device can be controlled to be in a full-screen relative coordinate acceleration mode. In the full-screen relative coordinate acceleration mode, when the left touch area has a touch operation, the operation result of the sliding operation of the right touch area is as follows: movement of the cursor on the second electronic device is presented in a multiple speed effect. The multiple speed may be, but is not limited to, 2 times speed. The full-screen relative coordinate acceleration mode is suitable for large-screen operation, and when a user needs to control the cursor to move a long distance through sliding operation in the touch area of the first electronic device, the full-screen relative coordinate acceleration mode can be adopted, so that the operation fatigue of the user is reduced.

In one implementation, the controlling the usage mode of the first electronic device based on the usage information and the operation information may include: and if the second electronic equipment runs the first type application and the first electronic equipment is executed with the first operation, controlling the first electronic equipment to be in a first use mode or a second use mode based on the operation parameters of the first operation.

Wherein the operating parameters may include, but are not limited to, changing information such as trajectory, amplitude, acceleration, etc. The operating parameters can reflect some characteristics of actual application scenes from a certain angle. For example, when the operation parameter indicates that the magnitude of the first operation is large, indicating that the distance that the cursor needs to move is relatively far, the first electronic device may be controlled to be in a full-screen absolute coordinate mode, so that the cursor can move to the target position quickly. For another example, in the case that the change of the trajectory, acceleration, etc. of the operation parameter is rapid and frequent, indicating that the cursor may need to move back and forth repeatedly, the first electronic device may be controlled to be in the full-screen relative coordinate mode.

Alternatively, the controlling the usage mode of the first electronic device based on the usage information and the operation information may include: and if the second electronic equipment runs a second type of application and the first electronic equipment is executed with a second operation, controlling the first electronic equipment to be in a third use mode or a fourth use mode based on the operating parameters of the second operation. Wherein the first operation and the second operation are the same or different.

Similarly, when the operation parameter indicates that the amplitude of the first operation is large, it indicates that the distance that the cursor needs to move is relatively long, and the first electronic device may be controlled to be in a half-screen absolute coordinate mode or a full-screen relative coordinate acceleration mode, so that the cursor may be rapidly moved to the target position. And under the condition that the change of the track, the acceleration and the like of the operation parameters is rapid and frequent, the cursor may need to move back and forth repeatedly, and the first electronic equipment can be controlled to be in a half-screen relative coordinate mode.

In one implementation, the controlling the usage mode of the first electronic device based on the usage information and the operation information may include: determining the use scene information of the first electronic equipment at least based on the number of second electronic equipment controlled by the first electronic equipment, and controlling the use mode of the first electronic equipment based on the use scene information and the operation information.

In some scenarios, the second electronic device includes two touch areas, and the two touch areas on the first electronic device can be respectively used to control one second electronic device. The respective usage modes of the two touch areas do not interfere with each other, and an appropriate usage mode may be determined based on the operation information of the second electronic device controlled by the touch areas. For example, if a game-like application is running on a second electronic device, the usage mode of the corresponding touch area may be a full-screen absolute coordinate mode; if an office application is running on the other second electronic device, the usage mode of the corresponding touch area may be a full-screen relative coordinate mode.

Of course, in practical applications, usage scenarios of the first electronic device and the second electronic device may be more complex, and more factors are considered for determining the usage mode of the first electronic device. Factors such as the environment information of the first electronic device, the number of the first electronic devices, and the relative position relationship between the first electronic device and the second electronic device.

Alternatively, the controlling the usage mode of the first electronic device based on the usage information and the operation information may include: obtaining usage mode switching information acting on the first electronic device, and controlling the usage mode of the first electronic device based on the usage mode switching information and the operation information.

In this implementation, the user may trigger the switching of the usage mode through a specific operation on the first electronic device, for example, the specific operation may be to draw a circle on the touch area of the first electronic device. For example, for some applications, such as a drawing application, two usage modes of the first electronic device are supported, including a full-screen absolute coordinate mode and a full-screen relative coordinate mode, where the first electronic device is currently in the full-screen absolute coordinate mode, and when a user triggers to perform a mode switch in a touch area of the first electronic device, the usage mode of the first electronic device may be controlled to be switched to the full-screen relative coordinate mode. Of course, if the currently running application only supports one usage mode of the first electronic device, even if the mode switching information triggered by the user is received, the currently available usage mode is not switched to another usage mode, but the current usage mode is maintained.

In some cases, during the process of using the first electronic device, some control operations may be closer to the reservation operation for controlling the mode switching, so as to cause false triggering of the mode switching; in order to prevent the false triggering, specifically whether to control the mode switching may be combined with the user operation before and after the subscription operation for controlling the mode switching. Specifically, if there is no other touch operation before and/or after the predetermined operation for mode switching, it is considered that the user simply wants to switch the usage mode, and if there is another control operation before and/or after the predetermined operation for mode switching, it is considered as a false trigger for mode switching, and the switching of the usage mode is not performed.

Alternatively, the controlling the usage mode of the first electronic device based on the usage information and the operation information may include: and obtaining the use duration information of the first electronic equipment, and controlling the use mode of the first electronic equipment based on the use duration information and the operation information.

It will be appreciated that the longer the user is using the first electronic device, the more fatigue the user is. When the user fatigue is high, the user wants to complete the control of what the second electronic device is tied to by a little-effort action as easily as possible. And the absolute coordinate mode is smaller than the relative coordinate mode in action amplitude required for completing the same operation, so that under the condition that the running application on the second electronic equipment simultaneously supports the absolute coordinate mode and the relative coordinate mode, the full-screen relative coordinate mode can be switched to the full-screen absolute coordinate mode under the condition that the use duration of the first electronic equipment is detected to exceed the set value. Alternatively, in a case where the second electronic device running the application only supports the relative coordinate mode, it may be switched from the full-screen absolute coordinate mode to the full-screen absolute coordinate acceleration mode.

In one implementation, the controlling the usage mode of the first electronic device based on the usage information and the operation information may include: and obtaining screen information of a second electronic device, and controlling the use mode of the first electronic device based on the use information, the operation information and the screen configuration information.

The screen information may include, but is not limited to, a screen size, a screen resolution, a screen usage, and the like. The screen information may help to determine which usage mode the first electronic device adopts to some extent, and what is mainly embodied in the present implementation is to determine which usage mode to use in combination with the screen size and the screen resolution. For example, it is understood that the larger the screen size, the larger the range of movement that the cursor needs to move, and the larger the movement range, the greater the rationality for selecting the absolute coordinate mode.

Alternatively, the controlling the usage mode of the first electronic device based on the usage information and the operation information may include: and obtaining the relevance between the first content and the second content currently displayed by the second electronic equipment, and controlling the use mode of the first electronic equipment based on the use information and the relevance.

The association refers to whether the first content and the second content belong to the same application or have an association on the content, and specifically, the association may be a content matching degree. For example, the display screen of the second electronic device is divided into a left display area and a right display area, in one example, the first content and the second content displayed by the left display area and the right display area both belong to the same game application, and then the first electronic device may adopt a full-screen absolute coordinate mode or a full-screen relative coordinate mode; in another example, the first content and the second content displayed in the left display area and the right display area originate from different signal sources, and there is no correlation between the two display contents, so that the two display contents need to be separately and independently controlled, and the first electronic device may adopt a half-screen absolute coordinate mode.

In one implementation, the configuring, by the first electronic device, a first control area and a second control area, where the first control area is adjacent to or not adjacent to the second control area, and the controlling, based on the usage information and the operation information, a usage mode of the first electronic device may include: configuring the same or different usage modes for the first control area and the second control area based on the usage information and the operation information.

Under the same use mode, the control signals triggered by the first control area and the second control area have no relevance; under different use modes, the control signals triggered by the first control area and the second control area have correlation or do not have correlation.

In one implementation, the configuring the same or different usage modes for the first control area and the second control area based on the usage information and the operation information may include: and if the use information represents that the first electronic equipment is used for controlling two independent display areas, configuring the same or different use modes for the first control area and the second control area based on the operating parameters of the first control area and the second control area and the respective operation information of the two independent display areas.

For example, in an implementation scenario, an office application interface displayed on a left half screen of a display screen of a second electronic device and a video application interface displayed on a right half screen of the display screen of the second electronic device are displayed, a first control area corresponding to the left half screen may adopt a half-screen relative coordinate mode, a second control area corresponding to the right half screen may adopt a half-screen absolute coordinate mode, and control signals triggered by the first control area and the second control area do not have relevance. Or, an office application interface displayed on the left half screen of the display screen of the second electronic device and a drawing application interface displayed on the right half screen of the display screen of the second electronic device, the first control area and the second control area can both adopt a half-screen relative coordinate mode, and control signals triggered by the first control area and the second control area are not related.

If the use information represents that the first electronic equipment is used for controlling a full-screen display area of the second electronic equipment, different use modes are configured for the first control area and the second control area based on the operating parameters of the first control area and the second control area and the running information of the full-screen display area.

For example, in an implementation scenario, a display screen of the second electronic device displays an integral game interface, a usage mode of the first control area is a triggered acceleration mode, a usage mode of the second control area is a full-screen relative coordinate mode, and control signals triggered by the first control area and the second control area have a correlation.

Or, the configuring the same or different usage modes for the first control area and the second control area based on the usage information and the operation information may include: and if the use information represents that the first electronic equipment is used for two operators to control two second electronic equipment, configuring the same or different use modes for the first control area and the second control area based on the operating parameters acted on the first control area and the second control area by the two operators and the respective operation information of the two second electronic equipment.

The implementation that the first control area and the second control area are in different use modes may further include that when the first electronic device is in a vertical holding posture, one control area is used for controlling display content on the second electronic device, and the other control area may be turned off or disabled.

In another implementation, the configuring the same or different usage modes for the first control area and the second control area based on the usage information and the operation information may include: and if the use information represents that the first electronic equipment is used for two operators to control two second electronic equipment, configuring the same or different use modes for the first control area and the second control area based on the operating parameters acted on the first control area and the second control area by the two operators and the respective operation information of the two second electronic equipment.

In a use scene of the implementation, two users respectively operate a first control area and a second control area of first electronic equipment; the first user controls the first second electronic device through the first control area, and the second user controls the second electronic device through the second control area. The usage pattern of the first control area may be determined based on the operation information of the first user in the first control area and the type of application running on the first second electronic device; the usage pattern of the second control area may be determined based on operation information of a second user in the second control area and a type of application running on the second electronic device. For specific implementation of the determination, reference may be made to related contents described in the foregoing embodiments, and details are not repeated herein.

Fig. 3 is a flowchart of another control method disclosed in the embodiment of the present application. Referring to fig. 3, the control method may include:

step 301: determining usage information of a first electronic device, the usage information comprising operational information acting on the first electronic device for controlling a second electronic device.

Step 302: and obtaining the operation information of the second electronic equipment.

Step 303: controlling a usage mode of the first electronic device based on the usage information and the operation information.

Wherein, under different usage modes, the response result of the second electronic device to the same operation acted on the first electronic device is different.

Step 304: obtaining change information of the first electronic device and the second electronic device, and adjusting the use mode of the first electronic device based on the change information.

Wherein the change information includes at least one of: location change information between the first electronic device and the second electronic device; or, quantity change information of the first electronic device and the second electronic device; or, location change information between the second electronic devices; or, the display screen of the second electronic device changes information.

For example, the first electronic device and the second electronic device are originally close to each other, and the use mode of the first electronic device is a full-screen relative coordinate mode; and the distance between the first electronic equipment and the second electronic equipment is increased, and the use mode of the first electronic equipment is switched to a full-screen absolute coordinate mode. In addition, when the distance between the first electronic device and the second electronic device changes, changes in the communication mode and the function mode of the first electronic device may also be considered in some scenarios. If the two are close, the bluetooth communication mode can be considered, and if the two are far, the wifi communication mode can be considered.

When the number of the first electronic device and/or the second electronic device changes, an object or an area controlled by the control area of the first electronic device also changes. Therefore, when the number of the first electronic device and/or the second electronic device is changed, the usage mode of the first electronic device needs to be correspondingly adjusted based on the changed control correspondence. For example, originally, two control regions of a first electronic device are used to control a first second electronic device and a second electronic device, respectively, and when one of the second electronic devices is turned off, the corresponding control region is disabled.

In one scene, a first control area of first electronic equipment is used for controlling first second electronic equipment, and the first electronic equipment is in a half-screen relative coordinate mode; the second control area is used for controlling a second piece of second electronic equipment and is in a half-screen absolute coordinate mode; and if the positions of the second electronic devices are exchanged, correspondingly, the use mode of the first control area is adjusted from the half-screen relative coordinate mode to the half-screen absolute coordinate mode, and the use mode of the second control area is adjusted from the half-screen absolute coordinate mode to the half-screen relative coordinate mode.

In other implementations, the switching of the usage mode of the first electronic device may also be manually switched by a user, for example, a hot key is arranged on the housing of the first electronic device, and the user may press the hot key when the user wants to switch the usage mode, so as to quickly switch the usage mode.

In the foregoing embodiments, the coordinate mapping mode is taken as an example to describe the usage mode of the first electronic device, but this does not constitute a fixed limitation to the usage mode of the first electronic device. In other implementations, the usage mode of the first electronic device may also be a double speed control mode. For example, for a play-class application, such as a video application or an audio application, which may determine that the user wants to increase the play speed if a "right-slip" operation of the amplitude is detected on the first electronic device during play output, the currently output content may be played at 1.25 times, 1.5 times, or 2.0 times speed according to the distance of the "right-slip"; and when the first electronic device detects the operation of 'left-sliding' of the amplitude, it may be determined that the user wants to slow down the playing speed, and it may be determined to play the currently output content at 0.75 times speed or 0.5 times speed according to the distance of 'left-sliding'.

In other implementations, the usage mode of the first electronic device may change to an input acquisition mode under certain operations. For example, the usage mode of the first electronic device may be a sound collection mode, a motion collection mode, or the like. In one scenario, when the first electronic device detects that the user holds the first electronic device vertically and approaches the face or mouth (image recognition can be acquired through a camera), and an application currently running on the second electronic device supports a voice synthesis or voice acquisition function, the usage mode of the first electronic device may be adjusted to a voice acquisition mode. In other embodiments, the first electronic device may further function as a data acquisition device, such as a stylus input device, a voice input device, and a 6Dof sensor, according to the operation information of the second electronic device, so as to control the second electronic device to perform a corresponding response operation based on the acquired data input. For example, when an application running on the second electronic device needs a digital signature, the first electronic device may become a stylus input device, a user may hold the first electronic device to "write" name information in the air, a sensor in the first electronic device may recognize a movement track and a spatial position of the first electronic device and transmit related data to the second electronic device, and a corresponding stroke track "written" by the user may appear in a signature area displayed on a display screen of the second electronic device.

The above implementation scenarios are also only used for exemplary description of the usage mode of the first electronic device, and do not constitute a fixed limitation on the usage mode of the first electronic device.

While, for purposes of simplicity of explanation, the foregoing method embodiments have been described as a series of acts or combination of acts, it will be appreciated by those skilled in the art that the present application is not limited by the order of acts or acts described, as some steps may occur in other orders or concurrently with other steps in accordance with the application. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and modules referred to are not necessarily required in this application.

The method is described in detail in the embodiments disclosed in the present application, and the method of the present application can be implemented by various types of apparatuses, so that an apparatus is also disclosed in the present application, and the following detailed description is given of specific embodiments.

Fig. 4 is a schematic structural diagram of a control device disclosed in an embodiment of the present application. Referring to fig. 4, the control device 40 may include:

an information determining module 401, configured to determine usage information of a first electronic device, where the usage information includes operation information acting on the first electronic device for controlling a second electronic device.

An information obtaining module 402, configured to obtain operation information of the second electronic device.

A mode control module 403, configured to control a usage mode of the first electronic device based on the usage information and the operation information.

Wherein, under different usage modes, the response result of the second electronic device to the same operation acted on the first electronic device is different.

In this embodiment the control device can determine the usage mode of the first electronic device based on the usage information of the first electronic device and the adaptive selection of the running information of the second electronic device, and under the usage mode, the user can more conveniently control the second electronic device through the first electronic device, so that the efficiency of controlling the second electronic device by the user is improved, and the user experience is optimized.

In one implementation, the mode control module is specifically configured to: if the first electronic device is in a first use posture and the second electronic device runs a first type application, controlling the first electronic device to be in a first use mode; or, if the first electronic device is in the first use posture and the second electronic device runs the second type application, controlling the first electronic device to be in the second use mode; or, if the first electronic device is in the second use posture and the second electronic device runs the first type application, controlling the first electronic device to be in a third use mode; or if the first electronic equipment is in the second use posture and the second electronic equipment runs the second type application, controlling the first electronic equipment to be in a fourth use mode.

In one implementation, the mode control module is specifically configured to: if the second electronic device runs a first type application and the first electronic device is executed with a first operation, controlling the first electronic device to be in a first use mode or a second use mode based on an operation parameter of the first operation; or, if the second electronic device runs a second type of application and the first electronic device is executed with a second operation, controlling the first electronic device to be in a third usage mode or a fourth usage mode based on an operation parameter of the second operation; wherein the first operation and the second operation are the same or different.

In one implementation, the mode control module is specifically configured to: determining usage scenario information of the first electronic device based on at least the number of second electronic devices controlled by the first electronic device, and controlling a usage mode of the first electronic device based on the usage scenario information and the operation information; or obtaining the use mode switching information acting on the first electronic equipment, and controlling the use mode of the first electronic equipment based on the use mode switching information and the operation information; or obtaining the use duration information of the first electronic equipment, and controlling the use mode of the first electronic equipment based on the use duration information and the operation information.

In one implementation, the mode control module is specifically configured to: obtaining screen information of a second electronic device, and controlling the use mode of the first electronic device based on the use information, the operation information and the screen configuration information; or obtaining the relevance between the first content and the second content currently displayed by the second electronic equipment, and controlling the use mode of the first electronic equipment based on the use information and the relevance.

In one implementation, the first electronic device is configured with a first control area and a second control area, where the first control area is adjacent to or not adjacent to the second control area, and the mode control module is specifically configured to: configuring the same or different use modes for the first control area and the second control area based on the use information and the operation information, wherein the control signals triggered by the first control area and the second control area have no relevance under the condition of having the same use mode; under different use modes, the control signals triggered by the first control area and the second control area have correlation or do not have correlation.

In one implementation, the mode control module is specifically configured to: if the usage information represents that the first electronic device is used for controlling two independent display areas on a display screen of the second electronic device, configuring the same usage mode for the first control area and the second control area based on the operating parameters of the first control area and the second control area and the respective operation information of the two independent display areas; or, if the usage information represents that the first electronic device is used for controlling a full-screen display area of the second electronic device, configuring different usage modes for the first control area and the second control area based on the operating parameters of the first control area and the second control area and the running information of the full-screen display area.

In one implementation, the mode control module is specifically configured to: and if the use information represents that the first electronic equipment is used for two operators to control two second electronic equipment, configuring the same or different use modes for the first control area and the second control area based on the operating parameters acted on the first control area and the second control area by the two operators and the respective operation information of the two second electronic equipment.

In one implementation, the mode control module is further configured to: obtaining change information of the first electronic device and the second electronic device, and adjusting the use mode of the first electronic device based on the change information; wherein the change information includes at least one of: location change information between the first electronic device and the second electronic device; or, quantity change information of the first electronic device and the second electronic device; or, location change information between the second electronic devices; or, the display screen of the second electronic device changes information.

The control device in any of the above embodiments includes a processor and a memory, the information determining module, the information obtaining module, the mode control module, and the like in the above embodiments are all stored in the memory as program modules, and the processor executes the program modules stored in the memory to implement corresponding functions.

The processor comprises a kernel, and the kernel calls the corresponding program module from the memory. The kernel can be provided with one or more, and the processing of the return visit data is realized by adjusting the kernel parameters.

The memory may include volatile memory in a computer readable medium, Random Access Memory (RAM) and/or nonvolatile memory such as Read Only Memory (ROM) or flash memory (flash RAM), and the memory includes at least one memory chip.

In an exemplary embodiment, a computer-readable storage medium, which can be directly loaded into the internal memory of a computer and contains software codes, is provided, and the computer program can be loaded into the computer and executed to implement the steps shown in any embodiment of the above-mentioned control method.

In an exemplary embodiment, a computer program product is also provided, which can be directly loaded into an internal memory of a computer and contains software codes, and the computer program can realize the steps of any embodiment of the control method described above after being loaded into and executed by the computer.

Further, the embodiment of the application provides an electronic device. Fig. 5 is a schematic structural diagram of an electronic device disclosed in an embodiment of the present application. Referring to fig. 5, the electronic device includes at least one processor 501, and at least one memory 502, a bus 503 connected to the processor; the processor and the memory complete mutual communication through a bus; the processor is used for calling the program instructions in the memory to execute the control method.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

It is further 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.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. 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 application. Thus, the present application 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, comprising:

determining usage information of a first electronic device, the usage information including operation information acting on the first electronic device for controlling a second electronic device;

obtaining operation information of the second electronic equipment;

controlling a usage mode of the first electronic device based on the usage information and the operation information;

wherein, under different usage modes, the response result of the second electronic device to the same operation acted on the first electronic device is different.

2. The method of claim 1, the controlling the usage pattern of the first electronic device based on the usage information and the operational information, comprising:

if the first electronic device is in a first use posture and the second electronic device runs a first type application, controlling the first electronic device to be in a first use mode; or the like, or, alternatively,

if the first electronic device is in the first use posture and the second electronic device runs the second type application, controlling the first electronic device to be in a second use mode; or the like, or a combination thereof,

if the first electronic device is in the second use posture and the second electronic device runs the first type application, controlling the first electronic device to be in a third use mode; or the like, or, alternatively,

and if the first electronic equipment is in the second use posture and the second electronic equipment runs the second type application, controlling the first electronic equipment to be in a fourth use mode.

3. The method of claim 1, the controlling the usage pattern of the first electronic device based on the usage information and the operational information, comprising:

if the second electronic device runs a first type application and the first electronic device is executed with a first operation, controlling the first electronic device to be in a first use mode or a second use mode based on an operation parameter of the first operation; or the like, or, alternatively,

if the second electronic equipment runs a second type application and the first electronic equipment is executed with a second operation, controlling the first electronic equipment to be in a third use mode or a fourth use mode based on the operation parameters of the second operation;

wherein the first operation and the second operation are the same or different.

4. The method of claim 1, the controlling the usage pattern of the first electronic device based on the usage information and the operational information, comprising:

determining usage scenario information of the first electronic device based on at least the number of second electronic devices controlled by the first electronic device, and controlling a usage mode of the first electronic device based on the usage scenario information and the operation information; or the like, or, alternatively,

obtaining usage mode switching information acting on the first electronic device, and controlling the usage mode of the first electronic device based on the usage mode switching information and the operation information; or the like, or, alternatively,

and obtaining the use duration information of the first electronic equipment, and controlling the use mode of the first electronic equipment based on the use duration information and the operation information.

5. The method of any of claims 1-4, the controlling the usage pattern of the first electronic device based on the usage information and the operational information, comprising:

obtaining screen information of a second electronic device, and controlling the use mode of the first electronic device based on the use information, the operation information and the screen configuration information; or the like, or, alternatively,

and obtaining the relevance between the first content and the second content currently displayed by the second electronic equipment, and controlling the use mode of the first electronic equipment based on the use information and the relevance.

6. The method of any of claims 1-4, the first electronic device configured with a first control area and a second control area, the first control area being adjacent or non-adjacent to the second control area, the controlling the usage pattern of the first electronic device based on the usage information and the operational information comprising:

configuring the same or different usage modes for the first control area and the second control area based on the usage information and the operation information, wherein,

under the same use mode, the control signals triggered by the first control area and the second control area have no relevance;

under different use modes, the control signals triggered by the first control area and the second control area have correlation or do not have correlation.

7. The method of claim 6, the configuring the same or different usage patterns for the first control area and the second control area based on the usage information and the operational information comprising:

if the usage information represents that the first electronic device is used for controlling two independent display areas on a display screen of the second electronic device, configuring the same usage mode for the first control area and the second control area based on the operating parameters of the first control area and the second control area and the respective operation information of the two independent display areas; or the like, or, alternatively,

if the usage information represents that the first electronic device is used for controlling a full-screen display area of the second electronic device, configuring different usage modes for the first control area and the second control area based on the operating parameters of the first control area and the second control area and the running information of the full-screen display area.

8. The method of claim 6, the configuring the first control area and the second control area with the same or different usage patterns based on the usage information and the operational information, comprising:

and if the use information indicates that the first electronic equipment is used for two operators to control two second electronic equipment, configuring the same or different use modes for the first control area and the second control area based on the operating parameters acted on the first control area and the second control area by the two operators and the respective operation information of the two second electronic equipment.

9. The method of any of claims 1-4, 7, or 8, further comprising:

obtaining change information of the first electronic device and the second electronic device, and adjusting the use mode of the first electronic device based on the change information;

wherein the change information includes at least one of:

location change information between the first electronic device and the second electronic device; or the like, or, alternatively,

number change information of the first electronic device and the second electronic device; or the like, or, alternatively,

location change information between the second electronic devices; or the like, or, alternatively,

and the display screen change information of the second electronic equipment.

10. A control device, comprising:

the electronic device comprises an information determining module, a first processing module and a second processing module, wherein the information determining module is used for determining use information of a first electronic device, and the use information comprises operation information which acts on the first electronic device and is used for controlling a second electronic device;

the information obtaining module is used for obtaining the operation information of the second electronic equipment;

a mode control module for controlling a usage mode of the first electronic device based on the usage information and the operation information;

wherein, under different usage modes, the response result of the second electronic device to the same operation acted on the first electronic device is different.

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