CN103793061B - Control method and electronic equipment - Google Patents
Control method and electronic equipment Download PDFInfo
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- CN103793061B CN103793061B CN201410075129.9A CN201410075129A CN103793061B CN 103793061 B CN103793061 B CN 103793061B CN 201410075129 A CN201410075129 A CN 201410075129A CN 103793061 B CN103793061 B CN 103793061B
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Abstract
The invention discloses a control method and electronic equipment. The method is applied to the electronic equipment. The electronic equipment comprises a projection module and a monitoring module. The projection module is capable of projecting a first virtual input interface on a first area of a first plane. The monitoring module is used for monitoring a user operating body. The method includes the first step of utilizing the monitoring module to obtain the operating position of the user operating body, and the second step of controlling the projection module to project the first virtual input interface on a second area, wherein the second area is the same as the operating position and different from the first area. According to the control method and the electronic equipment, the projection module in the electronic equipment can actively adapt to the operating position of the user operating body and control the first virtual input interface to be projected on the area where the user operating body is located, so a user does not need to actively adapt to the position of the first virtual input interface, and user experience can be obviously improved.
Description
Technical field
The application relates to mechanical braking technical field, particularly to a kind of control method and electronic equipment.
Background technology
Along with the development of electronic technology, the realization of the infrared keyboard in various equipment is more and more extensive, such as, and panel computer
Deng not possessing the equipment of physical keyboard by infrared projection, desktop or metope project and generates infrared keyboard, the hands in equipment
Gesture identification module, by identifying the action above this infrared keyboard of user's finger, identifies the button that user's finger is touched.
But, existing infrared keyboard can only be projected in fixed position, needs user to go actively and adapts to infrared keyboard
Projected area, affects Consumer's Experience.
Summary of the invention
Technical problems to be solved in this application are to provide a kind of control method and electronic equipment, in order to solve prior art
The projected area of mid-infrared keyboard is fixed, and needs user actively to adapt to, affects the technical problem of Consumer's Experience.
This application provides a kind of control method, be applied to electronic equipment, described electronic equipment includes projection module, described
Projection module can project the first virtual inputting interface in the first area of the first plane, and described electronic equipment also includes monitoring mould
Block, described monitoring modular is used for monitoring user operation body, and described method includes:
Described monitoring modular is utilized to obtain the operating position of described user operation body;
Control described projection module and described first virtual inputting interface is projected second area, described second area and institute
State operating position consistent, and described second area is different from described first area.
Said method, it is preferred that described first virtual inputting interface is projected second by the described projection module of described control
Region, including:
Obtain the first distance value between described operating position and described projection module;
According to described first distance value, obtain the projection variation angle of described projection module;
Adjust described projection module and rotate described projection variation angle;
Control described projection module, with current crevice projection angle, described first virtual inputting interface is projected second area, institute
The center stating second area is consistent with described operating position.
Said method, it is preferred that described first virtual inputting interface is projected second by the described projection module of described control
Region, including:
Obtain the described first area the first distance apart from described projection module with described operating position apart from described projection
Distance difference between the second distance of module;
According to described distance difference, obtain the projection intensity variation parameter of described projection module;
According to described projection intensity variation parameter, adjust the projection intensive parameter of described projection module;
Control described projection module, with current projection intensive parameter, described first virtual inputting interface is projected the secondth district
Territory, the center of described second area is consistent with described operating position.
Said method, it is preferred that described first virtual inputting interface is projected second by the described projection module of described control
Region, including:
Obtain the second distance value between described operating position and described projection module;
According to described second distance value, determine the projected area size of described projection module;
Control described projection module and described first virtual inputting interface is projected second area, described second area big
Little and described projected area size is consistent, and the center of described second area is consistent with described operating position.
Present invention also provides a kind of electronic equipment, described electronic equipment includes projection module, and described projection module can
Project the first virtual inputting interface in the first area of the first plane, described electronic equipment also includes monitoring modular, described monitoring
Module is used for monitoring user operation body, and described electronic equipment also includes:
Position acquisition unit, for utilizing described monitoring modular to obtain the operating position of described user operation body;
Projection control unit, is used for controlling described projection module and described first virtual inputting interface is projected the secondth district
Territory, described second area is consistent with described operating position, and described second area is different from described first area.
Above-mentioned electronic equipment, it is preferred that described projection control unit includes:
First value obtains subelement, for obtaining the first distance value between described operating position and described projection module;
Angle obtains subelement, for according to described first distance value, obtaining the projection variation angle of described projection module;
Angle adjustment subelement, is used for adjusting described projection module and rotates described projection variation angle;
First controls subelement, is used for controlling described projection module with current crevice projection angle by described first virtual input circle
Face projects second area, and the center of described second area is consistent with described operating position.
Above-mentioned electronic equipment, it is preferred that described projection control unit includes:
Second value obtains subelement, for obtaining the described first area the first distance apart from described projection module with described
Operating position distance difference between the second distance of described projection module;
Intensity obtains subelement, for according to described distance difference, obtaining the projection intensity variation ginseng of described projection module
Number;
Intensity adjusts subelement, and for according to described projection intensity variation parameter, the projection adjusting described projection module is strong
Degree parameter;
Second controls subelement, is used for controlling described projection module with current projection intensive parameter by described first virtual defeated
Entering interface and project second area, the center of described second area is consistent with described operating position.
Above-mentioned electronic equipment, it is preferred that described projection control unit includes:
3rd value obtains subelement, for obtaining the second distance value between described operating position and described projection module;
Region determines subelement, for according to described second distance value, determines the projected area size of described projection module;
3rd controls subelement, is used for controlling described projection module and described first virtual inputting interface is projected the secondth district
Territory, the size of described second area is consistent with described projected area size, and the center of described second area is with described
Operating position is consistent.
From such scheme, a kind of control method of the application offer and electronic equipment, this electronic equipment includes
Projection module and monitoring modular, this projection module can project the first virtual inputting interface in the first area of the first plane,
And this monitoring modular can monitor user operation body, by utilizing monitoring modular to get the operation of user operation body in the application
Position, projects consistent with the operating position of user operation body by described first virtual inputting interface controlling projection module
In second area.The projection module that the application is capable of in electronic equipment actively adapts to the operating position of the operating body of user,
And control the first virtual inputting interface and project in user operation body region, it is not necessary to user actively adapts to the first virtual input
The position at interface, hence it is evident that improve Consumer's Experience.
Accompanying drawing explanation
For the technical scheme being illustrated more clearly that in the embodiment of the present application, in embodiment being described below required for make
Accompanying drawing be briefly described, it should be apparent that, the accompanying drawing in describing below is only some embodiments of the application, for
From the point of view of those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain it according to these accompanying drawings
His accompanying drawing.
The flow chart of a kind of control method embodiment one that Fig. 1 provides for the application;
Fig. 2 to Fig. 6 is multiple application example figures of the embodiment of the present application one;
The partial process view of a kind of control method embodiment two that Fig. 7 provides for the application;
Fig. 8 is the application example figure of the embodiment of the present application two;
The partial process view of a kind of control method embodiment three that Fig. 9 provides for the application;
Figure 10 is the application example figure of the embodiment of the present application three;
The partial process view of a kind of control method embodiment four that Figure 11 provides for the application;
The structural representation of a kind of electronic equipment embodiment five that Figure 12 provides for the application;
The part-structure schematic diagram of a kind of electronic equipment embodiment six that Figure 13 provides for the application;
The part-structure schematic diagram of a kind of electronic equipment embodiment seven that Figure 14 provides for the application;
The part-structure schematic diagram of a kind of electronic equipment embodiment eight that Figure 15 provides for the application.
Detailed description of the invention
Below in conjunction with the accompanying drawing in the embodiment of the present application, the technical scheme in the embodiment of the present application is carried out clear, complete
Describe, it is clear that described embodiment is only some embodiments of the present application rather than whole embodiments wholely.Based on
Embodiment in the application, it is every other that those of ordinary skill in the art are obtained under not making creative work premise
Embodiment, broadly falls into the scope of the application protection.
With reference to Fig. 1, for the flow chart of a kind of control method embodiment one that the application provides, wherein said method is applied to
In electronic equipment, described electronic equipment can be the equipment such as mobile phone, pad, flat board, described electronic equipment include projection module and
Monitoring modular, described projection module can project the first virtual inputting interface, such as institute in Fig. 2 in the first area of the first plane
Showing, described electronic equipment place plane is that (described electronic equipment can be by devices such as supports, it is achieved its place is put down for the second plane
Face is different from described first plane), described first plane and described second plane have angle a.Described projection module can set
It is placed in the lower edge region of described electronic equipment, and then can show on this electronic equipment display unit of Consumer's Experience not affecting
While showing content, described first virtual inputting interface is projected on the first area of described first plane, such as institute in Fig. 3
Show.Described projection module can be that infrared projection module realizes, and described first virtual inputting interface is infrared inputting interface.
And described monitoring modular can be image acquisition equipment realize, as first-class, to monitor user operation body in shooting
Whether operational motion is input action, and can to get at user operation body be operating position during input action.Described prison
Survey module and can be arranged on top edges region or the lower edge region of described electronic equipment, as shown in Figure 4.
Based on the above-mentioned structure that realizes, the control method in the embodiment of the present application may comprise steps of:
Step 101: utilize described monitoring modular to obtain the operating position of described user operation body.
Wherein, in described step 101, when the operating position utilizing described monitoring modular to obtain described user operation body,
Specifically can be accomplished by:
Described monitoring modular is utilized to obtain the view data of described electronic equipment front region, in described view data
User operation body is identified, and when the operational motion of described user operation body is input action, utilizes described view data to obtain
Take the operating position of described user operation body.
With in Fig. 5 shown in example, described first virtual inputting interface is projected by the projection module in described electronic equipment
In first area, user carries out input action at its operating position, and now, described operating position is obtained by the embodiment of the present application
Take.
Step 102: control described projection module and described first virtual inputting interface is projected second area.
Wherein, described second area is consistent with described operating position, and described second area is with described first area not
With.
It should be noted that described second area is consistent with described operating position, concrete, in described second area
Heart position is consistent with described operating position, as shown in Figure 6.
From such scheme, a kind of control method embodiment one that the application provides, this electronic equipment includes throwing
Shadow module and monitoring modular, this projection module can project the first virtual inputting interface in the first area of the first plane, and
This monitoring modular can monitor user operation body, by utilizing monitoring modular to get the operative position of user operation body in the application
Put, described first virtual inputting interface is projected consistent with the operating position of user operation body controlling projection module
In two regions.The projection module that the embodiment of the present application one is capable of in electronic equipment actively adapts to the operation of the operating body of user
Position, and control the first virtual inputting interface and project in user operation body region, it is not necessary to it is empty that user actively adapts to first
Intend the position of inputting interface, hence it is evident that improve Consumer's Experience.
Wherein, in above-described embodiment, in the realization of described step 102, specifically can adjust by utilizing described operating position
The projection parameter of projection module in whole described electronic equipment, and then control described projection module with its current projection parameter by described
First virtual inputting interface projects in the second area corresponding with described operating position.
Concrete, described projection parameter can include by the crevice projection angle parameter of described projection module, projection intensive parameter
Such as infrared ray projection intensive parameter or be projected area size parameter etc..
Accordingly, described step 102 has following several implementation:
Based on previous embodiment, with reference to Fig. 7, for step described in a kind of control method embodiment two that the application provides
The flowchart of 102, wherein, described step 102 may include that
Step 701: obtain the first distance value between described operating position and described projection module.
As shown in Figure 8, described first distance value is the distance between described operating position and described projection module.
Step 702: according to described first distance value, obtain the projection variation angle of described projection module.
Wherein, described step 702 can be accomplished by:
According to described first distance value, determine that described first virtual inputting interface is projected the secondth district by described projection module
The projectional angle angle value in territory, is utilizing this projectional angle angle value and the current crevice projection angle of described projection module, is obtaining described projective module
Block needs to carry out the projection variation angle of angle adjustment.
Step 703: adjust described projection module and rotate described projection variation angle.
As shown in Figure 8, described step 703 is the projecting direction rotating projection module, by described projection module institute
State projection variation angle, the first original for described projection module projecting direction is rotated as the second current projecting direction.
Step 704: control described projection module, with current crevice projection angle, described first virtual inputting interface projected
Two regions, the center of described second area is consistent with described operating position.
It can be seen that the embodiment of the present application is by the projecting direction to projection module in the implementation of above-mentioned steps 102
Or crevice projection angle is adjusted, so control this projection module the first virtual inputting interface is projected and user operation gymnastics make
In the second area that position is consistent, it is achieved the tracking to user operation body projects, and improves Consumer's Experience.
Based on previous embodiment, with reference to Fig. 9, for step described in a kind of control method embodiment three that the application provides
The flow chart of 102, wherein, described step 102 may comprise steps of:
Step 901: obtain described first area apart from the first distance of described projection module and described operating position distance
Distance difference between the second distance of described projection module.
As shown in Figure 10, described distance difference is: described first area apart from the first distance of described projection module,
And the difference that described operating position is between the second distance of described projection module.Described first area is apart from described projective module
First distance of block it can be understood as described first area center position described in the distance of projection module.
Step 902: according to described distance difference, obtain the projection intensity variation parameter of described projection module.
Wherein, in described step 902, if described distance difference is more than 0, show the operating position of described user operation body
Neighbouring described projection module, now, using the variation value corresponding with described distance difference as described projection intensity variation parameter,
Described projection intensity variation parameter is less than 0,;If described distance difference is less than 0, show that the operating position of described user operation body is remote
From described projection module, now, using the variation value corresponding with described distance difference as described projection intensity variation parameter, institute
State projection intensity variation parameter more than 0.
Step 903: according to described projection intensity variation parameter, adjust the projection intensive parameter of described projection module.
Wherein, in described step 903, if described projection intensity variation parameter is more than 0, improve working as of described projection module
Front projection intensity level, its increase rate is described projection intensity variation parameter, if described projection intensity variation parameter is less than 0, fall
Low described projection module currently project intensity level, its reduction amplitude is the absolute value of described projection intensity variation parameter.
Step 904: control described projection module with current projection intensive parameter by described first virtual inputting interface projection
To second area, the center of described second area is consistent with described operating position.
From in the implementing of above-mentioned steps 102, the embodiment of the present application is by the projection intensity level to projection module
It is adjusted, and then controls this projection module and the first virtual inputting interface is projected consistent with user operation body operating position
Second area in, and keep the visibility of described first virtual inputting interface, it is achieved the tracking to user operation body projects, and changes
Kind Consumer's Experience.
Based on previous embodiment, with reference to Figure 11, for step described in a kind of control method embodiment four that the application provides
The flow chart of 102, wherein, described step 102 may comprise steps of:
Step 1101: obtain the second distance value between described operating position and described projection module.
Wherein, the second distance value in described step 1101 can be identical with the first distance value as shown in Figure 8.
Step 1102: according to described second distance value, determine the projected area size of described projection module.
Step 1103: control described projection module and described first virtual inputting interface is projected second area, described
The size in two regions is consistent with described projected area size, as shown in Figure 6, and the center of described second area and institute
State operating position consistent.
Wherein, the projected area size of described projection module can be understood as the described projection module plane at predeterminable range
The area size of the first virtual inputting interface of upper projection, on the perspective plane at described first virtual inputting interface place away from described
During projection module, the described first virtual inputting interface area on its perspective plane can increase, and affects the experience of user, because of
This, in the embodiment of the present application, when the distance between described operating position and described projection module changes, can foundation
Second distance value after its variation, redefines the projected area size of described projection module, and then can be in described operative position
Put and project the first virtual inputting interface meeting user's request and custom, the projection surface of the most described first virtual inputting interface
Long-pending adjust its projected area size with described projection module before the projected area of the first virtual inputting interface consistent.
With reference to Figure 12, for the structural representation of a kind of electronic equipment embodiment five that the application provides, wherein, described electronics
Equipment can be the equipment such as mobile phone, pad, flat board, and described electronic equipment includes projection module 1201, described projection module 1201 energy
Enough projection the first virtual inputting interfaces in the first area of the first plane, as shown in Figure 2, described electronic equipment place plane
It is the second plane (described electronic equipment can be by devices such as supports, it is achieved its place plane is different from described first plane),
Described first plane and described second plane have angle a.Described projection module can be arranged at the lower section of described electronic equipment
Marginal area, and then can be while not affecting and showing content on this electronic equipment display unit of Consumer's Experience, by described
One virtual inputting interface projects on the first area of described first plane, as shown in Figure 3.Described projection module can be red
Outer projection's module realizes, and described first virtual inputting interface is infrared inputting interface.
And described electronic equipment also includes monitoring modular 1202, described monitoring modular can be that image acquisition equipment is real
Existing, as first-class in shooting, whether it is that input is dynamic, and can get in user operation to monitor the operational motion of user operation body
Body is operating position during input action.Described monitoring modular can be arranged on described electronic equipment top edges region or under
Method, edge region, as shown in Figure 4.
Based on the above-mentioned result that realizes, the electronic equipment in the embodiment of the present application can also include following structure:
Position acquisition unit 1203, for utilizing described monitoring modular 1202 to obtain the operative position of described user operation body
Put.
Wherein, in described position acquisition unit 1203, obtain described user operation body utilizing described monitoring modular 1202
Operating position time, specifically can be accomplished by:
Described monitoring modular 1202 is utilized to obtain the view data of described electronic equipment front region, to described view data
In user operation body be identified, when the operational motion of described user operation body is input action, utilize described picture number
According to the operating position obtaining described user operation body.
With in Fig. 5 shown in example, described first virtual inputting interface is projected by the projection module in described electronic equipment
In first area, user carries out input action at its operating position, and now, described operating position is obtained by the embodiment of the present application
Take.
Projection control unit 1204, is used for controlling described projection module 1201 and is projected by described first virtual inputting interface
Second area, described second area is consistent with described operating position, and described second area is different from described first area.
It should be noted that described second area is consistent with described operating position, concrete, in described second area
Heart position is consistent with described operating position, as shown in Figure 6.
From such scheme, a kind of electronic equipment embodiment five that the application provides, this electronic equipment includes throwing
Shadow module and monitoring modular, this projection module can project the first virtual inputting interface in the first area of the first plane, and
This monitoring modular can monitor user operation body, by utilizing monitoring modular to get the operative position of user operation body in the application
Put, described first virtual inputting interface is projected consistent with the operating position of user operation body controlling projection module
In two regions.The projection module that the embodiment of the present application five is capable of in electronic equipment actively adapts to the operation of the operating body of user
Position, and control the first virtual inputting interface and project in user operation body region, it is not necessary to it is empty that user actively adapts to first
Intend the position of inputting interface, hence it is evident that improve Consumer's Experience.
Wherein, in above-described embodiment, in the realization of described projection control unit 1204, specifically can be by utilizing described behaviour
Make the projection parameter of projection module described in electronic equipment described in position adjustment, and then control described projection module and currently throw with it
Penetrate parameter to be projected in the second area corresponding with described operating position by described first virtual inputting interface.
Concrete, described projection parameter can include by the crevice projection angle parameter of described projection module, projection intensive parameter
Such as infrared projection intensive parameter or be projected area size parameter etc..
Accordingly, described projection control unit 1204 specifically can have following several implementation:
Based on previous embodiment, with reference to Figure 13, for projecting described in a kind of electronic equipment embodiment six that the application provides
Control unit 1204 realize structural representation, wherein, described projection control unit 1204 may include that
First value obtains subelement 1301, for obtaining the first distance between described operating position and described projection module
Value.
As shown in Figure 8, described first distance value is the distance between described operating position and described projection module.
Angle obtains subelement 1302, for according to described first distance value, obtaining the projection variation of described projection module
Angle.
Wherein, described angle acquisition subelement 1302 can be accomplished by:
According to described first distance value, determine that described first virtual inputting interface is projected the secondth district by described projection module
The projectional angle angle value in territory, is utilizing this projectional angle angle value and the current crevice projection angle of described projection module, is obtaining described projective module
Block needs to carry out the projection variation angle of angle adjustment.
Angle adjustment subelement 1303, is used for adjusting described projection module and rotates described projection variation angle.
As shown in Figure 8, described angle adjustment subelement 1303 is the projecting direction rotating projection module, by described throwing
Projection variation angle described in shadow module, rotates the first original for described projection module projecting direction as the second current projection side
To.
First controls subelement 1304, is used for controlling described projection module with current crevice projection angle by described first virtual defeated
Entering interface and project second area, the center of described second area is consistent with described operating position.
It can be seen that the embodiment of the present application is by projection module in the implementation of above-mentioned projection control unit 1204
Projecting direction or crevice projection angle are adjusted, so control this projection module the first virtual inputting interface is projected and user behaviour
Make in the second area that body operating position is consistent, it is achieved the tracking to user operation body projects, and improves Consumer's Experience.
Based on previous embodiment, with reference to Figure 14, for projecting described in a kind of electronic equipment embodiment seven that the application provides
The structural representation of control unit 1204, wherein, described projection control unit 1204 may include that
Second value obtain subelement 1401, for obtain described first area apart from described projection module the first distance with
Described operating position distance difference between the second distance of described projection module.
As shown in Figure 10, described distance difference is: described first area apart from the first distance of described projection module,
And the difference that described operating position is between the second distance of described projection module.
Intensity obtains subelement 1402, for according to described distance difference, obtaining the projection intensity ginseng of described projection module
Number.
Wherein, in described intensity obtains subelement 1402, if described distance difference is more than 0, show described user operation
The operating position of body is adjacent to described projection module, now, using the variation value corresponding with described distance difference as described projection
Intensity variation parameter, described projection intensity variation parameter is less than 0,;If described distance difference is less than 0, show described user operation
The operating position of body is away from described projection module, now, using the variation value corresponding with described distance difference as described projection
Intensity variation parameter, described projection intensity variation parameter is more than 0.
Intensity adjusts subelement 1403, for according to described projection intensity variation parameter, adjusts described projection module 1201
Projection intensive parameter.
Wherein, in described intensity adjusts subelement 1403, if described projection intensity variation parameter is more than 0, improve described
Projection module currently project intensity level, its increase rate is described projection intensity variation parameter, if described projection intensity variation
Parameter is less than 0, and that reduces described projection module currently projects intensity level, and its reduction amplitude is described projection intensity variation parameter
Absolute value.
Second controls subelement 1404, is used for controlling described projection module empty by described first with current projection intensive parameter
Intending inputting interface and project second area, the center of described second area is consistent with described operating position.
From in the implementing of above-mentioned projection control unit 1204, the embodiment of the present application is by the throwing to projection module
Penetrate intensity level to be adjusted, and then control this projection module the first virtual inputting interface is projected and user operation body operative position
Put in consistent second area, and keep the visibility of described first virtual inputting interface, it is achieved to user operation body with
Track projects, and improves Consumer's Experience.
Based on previous embodiment, with reference to Figure 15, for projecting described in a kind of electronic equipment embodiment eight that the application provides
The structural representation of control unit 1204, wherein, described projection control unit 1204 can include following structure:
3rd value obtains subelement 1501, for obtaining the second distance between described operating position and described projection module
Value.
Wherein, the second distance value in described step 1201 can be identical with the first distance value as shown in Figure 8.
Region determines subelement 1502, for according to described second distance value, determines the projected area of described projection module
Size.
3rd controls subelement 1503, is used for controlling described projection module and described first virtual inputting interface projects the
Two regions, the size of described second area is consistent with described projected area size, and the center of described second area with
Described operating position is consistent.
Wherein, the projected area size of described projection module can be understood as the described projection module plane at predeterminable range
The area size of the first virtual inputting interface of upper projection, on the perspective plane at described first virtual inputting interface place away from described
During projection module, the described first virtual inputting interface area on its perspective plane can increase, and affects the experience of user, because of
This, in the embodiment of the present application, when the distance between described operating position and described projection module changes, can foundation
Second distance value after its variation, redefines the projected area size of described projection module, and then can be in described operative position
Put and project the first virtual inputting interface meeting user's request and custom, the projection surface of the most described first virtual inputting interface
Long-pending adjust its projected area size with described projection module before the projected area of the first virtual inputting interface consistent.
It should be noted that each embodiment in this specification all uses the mode gone forward one by one to describe, each embodiment weight
Point explanation is all the difference with other embodiments, and between each embodiment, identical similar part sees mutually.
Finally, in addition it is also necessary to explanation, in this article, the relational terms of such as first and second or the like be used merely to by
One entity or operation separate with another entity or operating space, and not necessarily require or imply these entities or operation
Between exist any this reality relation or order.And, term " includes ", " comprising " or its any other variant meaning
Containing comprising of nonexcludability, so that include that the process of a series of key element, method, article or equipment not only include that
A little key elements, but also include other key elements being not expressly set out, or also include for this process, method, article or
The key element that equipment is intrinsic.In the case of there is no more restriction, statement " including ... " key element limited, do not arrange
Except there is also other identical element in including the process of described key element, method, article or equipment.
Above a kind of control method provided herein and electronic equipment are described in detail, used herein
Principle and the embodiment of the application are set forth by specific case, and the explanation of above example is only intended to help to understand this
The method of application and core concept thereof;Simultaneously for one of ordinary skill in the art, according to the thought of the application, specifically
All will change on embodiment and range of application, in sum, this specification content should not be construed as the application's
Limit.
Claims (6)
1. a control method, it is characterised in that be applied to electronic equipment, described electronic equipment includes projection module, described throwing
Shadow module can project the first virtual inputting interface in the first area of the first plane, and described electronic equipment also includes monitoring mould
Block, described monitoring modular is used for monitoring user operation body, and described method includes:
Described monitoring modular is utilized to obtain the operating position of described user operation body;
Control described projection module and described first virtual inputting interface is projected second area, described second area and described behaviour
Make position consistent, and described second area is different from described first area;
Described first virtual inputting interface is projected second area by the described projection module of described control, including:
Obtain the first distance value between described operating position and described projection module;
According to described first distance value, obtain the projection variation angle of described projection module;
Adjust described projection module and rotate described projection variation angle;
Control described projection module and with current crevice projection angle described first virtual inputting interface projected second area, described
The center in two regions is consistent with described operating position.
Method the most according to claim 1, it is characterised in that the described projection module of described control is by described first virtual defeated
Enter interface and project second area, including:
Obtain the described first area the first distance apart from described projection module with described operating position apart from described projection module
Second distance between distance difference;
According to described distance difference, obtain the projection intensity variation parameter of described projection module;
According to described projection intensity variation parameter, adjust the projection intensive parameter of described projection module;
Control described projection module, with current projection intensive parameter, described first virtual inputting interface is projected second area, institute
The center stating second area is consistent with described operating position.
Method the most according to claim 1, it is characterised in that the described projection module of described control is by described first virtual defeated
Enter interface and project second area, including:
Obtain the second distance value between described operating position and described projection module;
According to described second distance value, determine the projected area size of described projection module;
Control described projection module and described first virtual inputting interface projected second area, the size of described second area with
Described projected area size is consistent, and the center of described second area is consistent with described operating position.
4. an electronic equipment, it is characterised in that described electronic equipment includes projection module, described projection module can be first
The first area of plane projects the first virtual inputting interface, and described electronic equipment also includes monitoring modular, and described monitoring modular is used
Monitoring user operation body, described electronic equipment also includes:
Position acquisition unit, for utilizing described monitoring modular to obtain the operating position of described user operation body;
Projection control unit, is used for controlling described projection module and described first virtual inputting interface is projected second area, institute
State second area consistent with described operating position, and described second area is different from described first area;
Described projection control unit includes:
First value obtains subelement, for obtaining the first distance value between described operating position and described projection module;
Angle obtains subelement, for according to described first distance value, obtaining the projection variation angle of described projection module;
Angle adjustment subelement, is used for adjusting described projection module and rotates described projection variation angle;
First controls subelement, is used for controlling described projection module and is thrown by described first virtual inputting interface with current crevice projection angle
Being mapped to second area, the center of described second area is consistent with described operating position.
Electronic equipment the most according to claim 4, it is characterised in that described projection control unit includes:
Second value obtains subelement, for obtaining described first area apart from the first distance of described projection module and described operation
Distance difference between the second distance of projection module described in positional distance;
Intensity obtains subelement, for according to described distance difference, obtains the projection intensity variation parameter of described projection module;
Intensity adjusts subelement, for according to described projection intensity variation parameter, adjusting the projection intensity ginseng of described projection module
Number;
Second controls subelement, is used for controlling described projection module with current projection intensive parameter by described first virtual input circle
Face projects second area, and the center of described second area is consistent with described operating position.
Electronic equipment the most according to claim 4, it is characterised in that described projection control unit includes:
3rd value obtains subelement, for obtaining the second distance value between described operating position and described projection module;
Region determines subelement, for according to described second distance value, determines the projected area size of described projection module;
3rd controls subelement, is used for controlling described projection module and described first virtual inputting interface is projected second area,
The size of described second area is consistent with described projected area size, and the center of described second area and described operation
Position is consistent.
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| CN104182128B (en) * | 2014-09-09 | 2017-08-29 | 联想(北京)有限公司 | Information processing method, device and electronic equipment |
| CN106200386B (en) * | 2015-05-07 | 2021-01-01 | 博西华电器(江苏)有限公司 | Household electrical appliance |
| CN106293037B (en) * | 2015-06-12 | 2023-05-02 | 联想(北京)有限公司 | Interaction method and electronic equipment |
| CN107168569B (en) * | 2017-03-29 | 2020-07-24 | 联想(北京)有限公司 | Parameter adjusting method and electronic equipment |
| CN108932082A (en) * | 2017-05-22 | 2018-12-04 | 博西华电器(江苏)有限公司 | Household electrical appliance |
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| CN1439151A (en) * | 2000-02-11 | 2003-08-27 | 卡尼斯塔公司 | Method and apparatus for entering data using a virtual input device |
| CN101901051A (en) * | 2009-05-26 | 2010-12-01 | 美国智能科技有限公司 | Data entry device and device based on the input object of distinguishing |
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| JP2005267424A (en) * | 2004-03-19 | 2005-09-29 | Fujitsu Ltd | Data input device, information processor, data input method and data input program |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1439151A (en) * | 2000-02-11 | 2003-08-27 | 卡尼斯塔公司 | Method and apparatus for entering data using a virtual input device |
| CN101901051A (en) * | 2009-05-26 | 2010-12-01 | 美国智能科技有限公司 | Data entry device and device based on the input object of distinguishing |
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