CN103853348A - Operation method, operation control method and related device of air input device - Google Patents

Abstract

Disclosed are an operation method, an operation control method and a related device of an air input device. According to feasible embodiments, an operation mode of the air input device which is connected with an application terminal is selected through the application terminal according to the current application scenario and the air input device is controlled to operate in the operation mode. According to the operation method, the operation control method and the related device of the air input device, the air input device can operate according to corresponding operation modes due to different application scenarios and accordingly user experience indicators of the air input device under various application scenarios can be met and the enthusiasm of the user experience is improved. The invention also discloses the application terminal and the air input device.

Description

A kind of operation method, progress control method and relevant apparatus of aerial input equipment

Technical field

The present invention relates to field of computer technology, relate in particular to a kind of operation method, progress control method and relevant apparatus of aerial input equipment.

Background technology

Aerial such as air mouse of input equipment, need to place in one plane unlike conventional mouse, air mouse by just aloft rock can function screen cursor.Air mouse is widely used in the aspects such as the menu operation, media navigation, game of TV.

It is degree of accuracy, sensitivity, flatness, ease for operation that the key user of air mouse experiences index.Degree of accuracy refers to that cursor can point to small icon and the character on screen accurately.For example need to choose certain very little option when browsing page, at this moment user on hand a very little shake all may make air mouse figure indicate a larger deviation, make to choose difficulty or mistake.Sensitivity refers to that user can move to cursor near the position of expectation fast.For example, in scene of game, user usually needs mobile air mouse rapidly, to reach the object of quick manipulation.Flatness refers to that air mouse, in the time of screen upper drawing circle or curve, there will not be water caltrop and broken line, and cursor movement process there will not be the situation of pause or sideslip.But, for air mouse, these experience index is not that any application scenarios all needs to meet simultaneously, for example, degree of accuracy and sensitivity conflict often, in a kind of application scenarios, reach accurately and sensitive simultaneously, can cause on the contrary that needs are stable is too sensitive while choosing, and accelerate the inadequate situation of speed when mobile at needs.

The technical scheme of existing air mouse is all generally to design with the mouse movement principle of computer, but the mouse movement principle of computer is directly applied to air mouse, user's experience effect is also bad, as shown in Figure 1, the mouse of computer moves and only has a kind of curve with vertical direction in the horizontal direction, the Changing Pattern that horizontal direction and vertical direction move is just the same, does not consider the operating feature of mouse under different application scene, can not give the good experience of user.

Summary of the invention

The embodiment of the present invention provides a kind of operation method, progress control method and relevant apparatus of aerial input equipment, by the application scenarios for different, aerial input equipment is moved according to corresponding operator scheme, the user that can meet aerial input equipment under various application scenarioss experiences index, improves the enthusiasm that user experiences.

First aspect present invention provides a kind of control method of aerial input equipment operation, can comprise:

Obtain the current application scenarios in application terminal;

According to described current application scenarios, select the operator scheme of the aerial input equipment being connected with described application terminal;

Send by the control command of the operator scheme operation of described selection to described aerial input equipment.

In the possible implementation of the first, described in obtain the current application scenarios in application terminal before, also comprise:

According to the cursor moving speed of described aerial input equipment and angular velocity of rotation, be described aerial input equipment setting and the corresponding operator scheme of application scenarios;

Operator scheme is set described in each corresponding to a kind of shape and/or color of cursor.

In the possible implementation of the second, described according to described current application scenarios, select the operator scheme of the aerial input equipment being connected with described application terminal to comprise:

According to described current application scenarios, select the operator scheme of the aerial input equipment being connected with described application terminal by any one selection mode;

Wherein, described selection mode comprises: software switch, hardware switch, program are selected automatically.

In conjunction with the possible implementation of the second of the possible implementation of the first of first aspect or first aspect or first aspect, in the third possible implementation, described application scenarios comprises: menu column navigation scenarios, soft keyboard input scene, scene of game and web page browsing scene.

Second aspect present invention provides a kind of operation method of aerial input equipment, can comprise:

Receive the control command of moving by the operator scheme of selecting that send the application terminal that is connected with described aerial input equipment, the operator scheme of the described selection application scenarios current with described application terminal is corresponding;

According to described operator scheme operation.

In the possible implementation of the first, describedly comprise according to the operation of described operator scheme:

According to the angular velocity of rotation of described aerial input equipment, the cursor of described aerial input equipment moves according to the cursor moving speed corresponding to described operator scheme.

In conjunction with the possible implementation of the first of second aspect, in the possible implementation of the second, described according to after described operator scheme operation, also comprise:

If the mobile increment of the described cursor along continuous straight runs calculating according to the angular velocity of rotation of described aerial input equipment and/or vertical direction is not more than the pixel threshold of setting, described cursor does not move;

If the mobile increment of the described cursor along continuous straight runs calculating according to the angular velocity of rotation of described aerial input equipment and/or vertical direction is greater than the pixel threshold of setting, described cursor moves to new position by described mobile increment.

In conjunction with the possible implementation of the first of second aspect, in the third possible implementation, it is characterized in that, described according to after described operator scheme operation, also comprise:

In the time that the angular velocity of rotation of described aerial input equipment is less than 5 radian per second, described cursor is to move to the cursor moving speed of 0 value decay.

Third aspect present invention provides a kind of application terminal, can comprise:

Acquisition module, for obtaining the current application scenarios in application terminal;

Select module, for according to described current application scenarios, select the operator scheme of the aerial input equipment being connected with described application terminal;

Control module, for sending to described aerial input equipment by the control command of the operator scheme operation of described selection.

In the possible implementation of the first, this application terminal also comprises:

First arranges module, for according to the cursor moving speed of described aerial input equipment and angular velocity of rotation, is described aerial input equipment setting and the corresponding operator scheme of application scenarios;

Second arranges module, for operator scheme being set described in each corresponding to a kind of shape and/or color of cursor.

In the possible implementation of the second, described selection module comprises:

Selected cell, for according to described current application scenarios, selects the operator scheme of the aerial input equipment being connected with described application terminal by any one selection mode;

Wherein, described selection mode comprises: software switch, hardware switch, program are selected automatically.

In conjunction with the possible implementation of the second of the possible implementation of the first of the third aspect or the third aspect or the third aspect, in the third possible implementation, described application scenarios comprises: menu column navigation scenarios, soft keyboard input scene, scene of game and web page browsing scene.

Fourth aspect present invention provides a kind of aerial input equipment, can comprise:

Receiver module, for receive that the application terminal that is connected with described aerial input equipment sends by the control command of the operator scheme operation of selecting, the operator scheme of the described selection application scenarios current with described application terminal is corresponding;

Operation module, for moving according to described operator scheme.

In the possible implementation of the first, described operation module comprises:

Mobile unit, for according to the angular velocity of rotation of described aerial input equipment, the cursor of described aerial input equipment moves according to the cursor moving speed corresponding to described operator scheme.

In conjunction with the possible implementation of the first of fourth aspect, in the possible implementation of the second, described aerial input equipment also comprises:

The first mobile module, if be not more than the pixel threshold of setting for the mobile increment of the described cursor along continuous straight runs that calculates according to the angular velocity of rotation of described aerial input equipment and/or vertical direction, described cursor does not move;

The second mobile module, if be greater than the pixel threshold of setting for the mobile increment of the described cursor along continuous straight runs that calculates according to the angular velocity of rotation of described aerial input equipment and/or vertical direction, described cursor moves to new position by described mobile increment.

In conjunction with the possible implementation of the first of fourth aspect, in the third possible implementation, described aerial input equipment also comprises:

The 3rd mobile module, in the time that the angular velocity of rotation of described aerial input equipment is less than 5 radian per second, described cursor is to move to the cursor moving speed of 0 value decay.

Therefore in feasible embodiments more of the present invention, the application scenarios that application terminal is current according to it, selects the operator scheme of the aerial input equipment being connected with this application terminal, and control aerial input equipment by this operator scheme operation.By the application scenarios for different, aerial input equipment is moved according to corresponding operator scheme, the user that can meet aerial input equipment under various application scenarioss experiences index, improves the enthusiasm that user experiences.

Brief description of the drawings

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the motion principle schematic diagram of computer mouse in prior art;

Fig. 2 is the method flow diagram of an embodiment of the control method of a kind of aerial input equipment operation provided by the invention;

Fig. 3 is the method flow diagram of another embodiment of the control method of a kind of aerial input equipment operation provided by the invention;

Fig. 4-1 is the curve movement schematic diagram of aerial input equipment under the application scenarios at menu navigation interface;

Fig. 4-2 are the curve movement schematic diagram of aerial input equipment under the application scenarios of soft keyboard input scene;

Fig. 4-3 are the curve movement schematic diagram of aerial input equipment under the application scenarios of game;

The curve movement schematic diagram of aerial input equipment under the application scenarios that Fig. 4-4 are web page browsing interface;

Fig. 5 is the method flow diagram of an embodiment of the operation method of a kind of aerial input equipment of the present invention;

Fig. 6 is the method flow diagram of a kind of another embodiment of operation method of aerial input equipment;

Fig. 7 is the structural representation of an embodiment of a kind of application terminal provided by the invention;

Fig. 8 is the structural representation of another embodiment of a kind of application terminal provided by the invention;

Fig. 9 is the structural representation of an embodiment of a kind of aerial input equipment of the present invention;

Figure 10 is the structural representation of a kind of another embodiment of aerial input equipment.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtaining under creative work prerequisite, belong to the scope of protection of the invention.

Fig. 2 is the method flow diagram of an embodiment of the control method of a kind of aerial input equipment operation provided by the invention.As shown in Figure 2, the control method of this aerial input equipment operation comprises the following steps:

Step S 101, obtains the current application scenarios in application terminal.

Aerial input equipment is for such as TV of application terminal, projector etc. have various uses, for example, can be used to carry out the menu bar object selection of TV, by soft keyboard input characters, play games and browsing page etc., the purposes of corresponding aerial input equipment, application terminal has different application scenarioss, it is menu column navigation scenarios, soft keyboard input scene, interface and webpage etc., different application scenarioss, the user of aerial input equipment is experienced to index difference, for example, browsing page requires aerial input equipment accurately to locate, play games and require aerial input equipment to be swift in response.

Application terminal obtains its current application scenarios, and its acquisition process can adopt existing technological means, does not repeat them here.

Step S102, according to current application scenarios, selects the operator scheme of the aerial input equipment being connected with application terminal.

In application terminal, according to different application scenarioss, store the operator scheme of corresponding aerial input equipment, experience the requirement of index to meet the user to aerial input equipment in different application scenarioss.

Application terminal is according to the current application scenarios obtaining, the operator scheme of the aerial input equipment of corresponding selection.

Step S103, sends by the control command of the operator scheme operation of selecting to aerial input equipment.

Send by the control command of the operator scheme operation of selecting to coupled aerial input equipment by wireless or wired form application terminal.

According to an embodiment of the control method of a kind of aerial input equipment operation provided by the invention, the application scenarios that application terminal is current according to it, select the operator scheme of the aerial input equipment being connected with this application terminal, and control aerial input equipment by this operator scheme operation.By the application scenarios for different, aerial input equipment is moved according to corresponding operator scheme, the user that can meet aerial input equipment under various application scenarioss experiences index, improves the enthusiasm that user experiences.

Fig. 3 is the method flow diagram of another embodiment of the control method of a kind of aerial input equipment operation provided by the invention.As shown in Figure 3, the control method of this aerial input equipment operation comprises the following steps:

Step S201, according to the cursor moving speed of aerial input equipment and angular velocity of rotation, is aerial input equipment setting and the corresponding operator scheme of application scenarios.

Application terminal does not need accurate location in the application scenarios having, therefore the cursor of aerial input equipment is identical with the movement law of vertical direction in the horizontal direction, in some application scenarioss, cursor is mainly in screen the latter half motion, therefore requires the cursor of aerial input equipment in the horizontal direction all can not be too fast with the movement of vertical direction.Aerial for example air mouse of input equipment mainly relies on gyroscope or Gravity accelerometer to catch the movement locus of user's operation, and aerial input equipment represents the translational speed of the aerial input equipment in user's hand with for example gyrostatic angular velocity of rotation, the mobile response of aerial input equipment is the movement of cursor to the screen of application terminal, represents with cursor moving speed.Therefore, corresponding different application scenarioss, needs according to cursor moving speed and the angular velocity of rotation of aerial input equipment, is aerial input equipment setting and the corresponding operator scheme of application scenarios.

Application terminal has different application scenarioss, such as menu column navigation scenarios, soft keyboard input scene, interface and webpage etc.For different application scenarioss, the characteristics of motion of aerial input equipment and curve are as follows respectively:

Fig. 4-1 is the curve movement schematic diagram of aerial input equipment under the application scenarios at menu navigation interface.This application scenarios is for the operation of the browsing of TV menu column, menu and dialog box etc., TV generally all adopts larger icon to come show navigator hurdle, menu column and dialog box to guide user to complete the operation of a certain function, the feature of this application scenarios is: do not need accurate location, do not need very fast movement yet, therefore, aerial input equipment is identical with the Changing Pattern of vertical direction in the horizontal direction.Its curve movement is as shown in Fig. 4-1.

Fig. 4-2 are the curve movement schematic diagram of aerial input equipment under the application scenarios of soft keyboard input scene.This application scenarios for example occurs that edit box ejects the scene of input method on TV for application terminal.Input method is shown as a soft keyboard in TV screen.The feature of this application scenarios is: the keyboard figure of input method is generally in the 3-4 of bottom of screen line range, with the icon continuous arrangement of formed objects, therefore, aerial input equipment is mainly in the motion of screen the latter half, and requires the cursor in the horizontal direction can not be too fast with the translational speed of vertical direction.Its curve movement is as shown in Fig. 4-2.

Fig. 4-3 are the curve movement schematic diagram of aerial input equipment under the application scenarios of game.This application scenarios is mainly used in needing the scene of game of fast moving air mouse.The feature of this application scenarios is: do not need accurate location, and can fast moving air mouse but need.Its curve movement is as shown in Fig. 4-3.

The curve movement schematic diagram of aerial input equipment under the application scenarios that Fig. 4-4 are web page browsing interface.This application scenarios is for passing through browser browsing page on TV.When the content of webpage shows on TV, than comparatively dense, and may there is a web page interlinkage in each provisional capital of webpage, and user likely goes to click.Therefore, the feature of this application scenarios is: need to locate accurately, cursor in the horizontal direction can fast moving, can accurately locate in the vertical direction.Its curve movement is as shown in Fig. 4-4.

Application terminal is stored in the aerial cursor moving speed of input equipment and the Changing Pattern of angular velocity of rotation in horizontal direction and vertical direction under every kind of application scenarios in the storer of application terminal, and by its corresponding a kind of operator scheme.For example, the curve movement of Fig. 4-1 of foregoing description to Fig. 4-4 is converted into software code, is stored in storer, and correspond to respectively the operator scheme under menu column navigation scenarios, soft keyboard input scene, interface and web application scene.

Step S202, arranges shape and/or the color of each operator scheme corresponding to a kind of cursor.

Application terminal arranges shape and/or the color of each operator scheme of aerial input equipment corresponding to a kind of cursor, in the time that aerial input equipment enters different operator schemes, the shape of cursor and/or color difference, thus prompting user has entered corresponding operator scheme.

Step S203, obtains the current application scenarios in application terminal.

This step is identical or similar with the step S101 of previous embodiment, does not repeat them here.

Step S204, according to current application scenarios, selects the operator scheme of the aerial input equipment being connected with application terminal by any one selection mode, wherein, this selection mode comprises: software switch, hardware switch, program are selected automatically.

According to current application scenarios, can select by multiple choices mode the operator scheme of aerial input equipment, for example, software switch, hardware switch and program are selected automatically.About the embodiment of hardware switch, on input equipment, increase a hardware switch aloft, in the time that user controls application terminal and enters Another application scene from an application scenarios, press the hardware switch on aerial input equipment simultaneously, aerial input equipment is to application terminal transmitted signal, signal analytic signal are received in application terminal, select corresponding operator scheme.The realization that software switch and program are selected automatically can adopt existing technological means to realize, and does not repeat them here.

Increase multiple choices modes the operator scheme of aerial input equipment is selected, can control listing operator scheme by user and whether work, or program selects automatically, do not need user intervention.

Step S205, sends by the control command of the operator scheme operation of selecting to aerial input equipment.

This step is identical or similar with the step S103 of previous embodiment, does not repeat them here.This control command can comprise the aerial input equipment of instruction by the order of the operator scheme operation of selecting with about the data message of this operator scheme.

According to another embodiment of the control method of a kind of aerial input equipment operation provided by the invention, according to the cursor moving speed of aerial input equipment and angular velocity of rotation, for aerial input equipment setting and the corresponding operator scheme of application scenarios, the application scenarios that application terminal is current according to it, select the operator scheme of the aerial input equipment being connected with this application terminal, and control aerial input equipment by this operator scheme operation.By the application scenarios for different, aerial input equipment is moved according to corresponding operator scheme, the user that can meet aerial input equipment under various application scenarioss experiences index, improves the enthusiasm that user experiences.

Fig. 5 is the method flow diagram of an embodiment of the operation method of a kind of aerial input equipment of the present invention.As shown in Figure 5, the operation method of this aerial input equipment comprises the following steps:

Step S301, receives the control command of moving by the operator scheme of selecting that send the application terminal that is connected with aerial input equipment, and the operator scheme of this selection application scenarios current with application terminal is corresponding.

Aerial input equipment is for such as TV of application terminal, projector etc. have various uses, for example, can be used to carry out the menu bar object selection of TV, by soft keyboard input characters, play games and browsing page etc., the purposes of corresponding aerial input equipment, application terminal has different application scenarioss, it is menu column navigation scenarios, soft keyboard input scene, interface and webpage etc., different application scenarioss, the user of aerial input equipment is experienced to index difference, for example, browsing page requires aerial input equipment accurately to locate, play games and require aerial input equipment to be swift in response.

Aerial input equipment receives application terminal by wireless or wired mode sends by the control command of the operator scheme operation of selecting, and the operator scheme of this selection application scenarios current with application terminal is corresponding.

The process that aerial input equipment receives the signal of application terminal can adopt existing technological means, does not repeat them here.

In the present embodiment, this aerial input equipment can be air mouse, bulletin pen.

Step S302, according to this operator scheme operation.

Aerial input equipment is resolved the control command receiving, and according to this operator scheme operation.

According to the operation method of a kind of aerial input equipment provided by the invention embodiment, aerial input equipment is according to the corresponding operator scheme operation of the application scenarios current with application terminal, the user that can meet aerial input equipment under various application scenarioss experiences index, improves the enthusiasm that user experiences.

Fig. 6 is the method flow diagram of a kind of another embodiment of operation method of aerial input equipment.As shown in Figure 6, the operation method of this aerial input equipment comprises the following steps:

Step S401, receives the control command of moving by the operator scheme of selecting that send the application terminal that is connected with aerial input equipment, and the operator scheme of this selection application scenarios current with application terminal is corresponding.

This step is identical or similar with the step S301 of previous embodiment, does not repeat them here.This control command that aerial input equipment receives comprises that the aerial input equipment of instruction is by the order of the operator scheme operation of selecting with about the cursor moving speed of input equipment and the Changing Pattern of angular velocity of rotation in the air in the data message horizontal direction that this operator scheme specify of this operator scheme and vertical direction.

In the present embodiment, this aerial input equipment can be air mouse, bulletin pen.

Step S402, according to the angular velocity of rotation of aerial input equipment, the cursor of this aerial input equipment moves according to the cursor moving speed corresponding to operator scheme.

According to the angular velocity of rotation of aerial input equipment, cursor moves according to the cursor moving speed corresponding to operator scheme, and in the horizontal direction specifying according to this operator scheme and vertical direction, the aerial cursor moving speed of input equipment and the Changing Pattern of angular velocity of rotation move.

Fig. 4-1 to Fig. 4-4 have drawn the cursor moving speed of air mouse and the Changing Pattern of angular velocity of rotation under the application scenarios that menu column navigation, soft keyboard input, scene of game and web page browsing scene browse by test of many times, according to the angular velocity of rotation of air mouse, cursor moves according to the cursor moving speed that Changing Pattern draws accordingly respectively in the horizontal direction with in vertical direction.

Step S403, judges whether the mobile increment of the basis cursor along continuous straight runs that the angular velocity of rotation of input equipment calculates and/or vertical direction is greater than the pixel threshold of setting, if so, goes to step S404 in the air, otherwise, go to step S405.

Step S404, cursor moves increment and moves to new position by this.

Step S405, cursor does not move.

Because aerial input equipment is to operate in user's hand, in the time that user uses, very small movement or angle tilt can cause the significantly deviation of movement locus, need to carry out anti-shake processing to aerial input equipment.

The aerial for example position calculation of air mouse cursor of input equipment is to obtain the angular velocity of rotation of air mouse by gyroscope, then calculates the mobile increment of cursor, finally obtains the position of screen cursor.Suppose that t1 moment screen cursor coordinate position is for (x, y), the moment that air mouse produces after Δ x and Δ y displacement is t2, mistiming Δ t=t2-t1, and cursor reposition is that (x+ Δ x, y+ Δ is y).Δ x and Δ y are calculated by mistiming Δ t and cursor moving speed Vx and Vy: Δ x=Vx* Δ t, Δ y=Vy* Δ t.There is corresponding curved line relation in cursor moving speed and gyrostatic angular velocity of rotation, can obtain cursor moving speed by angular velocity of rotation, finally can calculate Δ x and Δ y, obtains the reposition of screen cursor.

Aerial input equipment is carried out to anti-shake processing, judge whether the mobile increment of the basis cursor along continuous straight runs that the angular velocity of rotation of input equipment calculates and/or vertical direction is greater than the pixel threshold of setting in the air, if, cursor moves increment and moves to new position by this, otherwise cursor does not move.

Through a large amount of tests, determine that air mouse is in the time being applied in operation televisor, the pixel threshold of this setting is 8 pixels, if | and Δ x+ Δ y|≤8 pixel, cursor does not move, otherwise cursor movement is to reposition, (x+ Δ x, y+ Δ is y).

Human eye is apart from the distance of the general at least 2-3 of televisor rice, 8 pixels are 1/60 ~ 1/80 for common 640*480 resolution, for high definition resolution 1920*1080 TV, be 1/240 ~ 1/135, the vision that user is caused and operate miss are also not obvious.Through a large amount of actual user's tests, substantially adapt to the application operating on TV.

Adopt aforesaid way, can carry out aerial input equipment effectively anti-shake.

Step S406, in the time that the angular velocity of rotation of aerial input equipment is less than 5 radian per second, cursor is to move to the cursor moving speed of 0 value decay.

In the use procedure of mouse, also have a kind of situation aloft, user clicks the mouse, and at this moment, the angular velocity of rotation of mouse is very little, and for preventing the shake of human body, cursor should move with less speed, accurately clicks needed content to reach.Preferably, in the time that the angular velocity of rotation of aerial input equipment is less than 5 radian per second, cursor is to move to the cursor moving speed of 0 value decay.The curve movement of aerial input equipment under the application scenarios that Fig. 4-1 to the menu column navigation as shown in Fig. 4-4, soft keyboard input, scene of game and web page browsing scene browsed, gyrostatic angular velocity of rotation is in the time being less than 5 radian per second, and cursor moving speed is rapidly close to 0 value.

According to another embodiment of the operation method of a kind of aerial input equipment provided by the invention, aerial input equipment is according to the corresponding operator scheme operation of the application scenarios current with application terminal, the user that can meet aerial input equipment under various application scenarioss experiences index, improve the enthusiasm that user experiences, carried out effective anti-shake to the aerial input equipment moving under every kind of operator scheme simultaneously.

Fig. 7 is the structural representation of an embodiment of a kind of application terminal provided by the invention.As shown in Figure 7, this application terminal comprises:

Acquisition module 101, for obtaining the current application scenarios in application terminal.

Aerial input equipment is for such as TV of application terminal, projector etc. have various uses, for example, can be used to carry out the menu bar object selection of TV, by soft keyboard input characters, play games and browsing page etc., the purposes of corresponding aerial input equipment, application terminal has different application scenarioss, it is menu column navigation scenarios, soft keyboard input scene, interface and webpage etc., different application scenarioss, the user of aerial input equipment is experienced to index difference, for example, browsing page requires aerial input equipment accurately to locate, play games and require aerial input equipment to be swift in response.

Application terminal obtains its current application scenarios, and its acquisition process can adopt existing technological means, does not repeat them here.

Select module 102, for according to current application scenarios, select the operator scheme of the aerial input equipment being connected with application terminal.

In application terminal, according to different application scenarioss, store the operator scheme of corresponding aerial input equipment, experience the requirement of index to meet the user to aerial input equipment in different application scenarioss.

Application terminal is according to the current application scenarios obtaining, the operator scheme of the aerial input equipment of corresponding selection.

Control module 103, for sending to aerial input equipment by the control command of the operator scheme operation of selecting.

Send by the control command of the operator scheme operation of selecting to coupled aerial input equipment by wireless or wired form application terminal.

According to a kind of application terminal provided by the invention embodiment, the application scenarios that application terminal is current according to it, selects the operator scheme of the aerial input equipment being connected with this application terminal, and controls aerial input equipment by this operator scheme operation.By the application scenarios for different, aerial input equipment is moved according to corresponding operator scheme, the user that can meet aerial input equipment under various application scenarioss experiences index, improves the enthusiasm that user experiences.

Fig. 8 is the structural representation of another embodiment of a kind of application terminal provided by the invention.As shown in Figure 8, this application terminal comprises:

First arranges module 201, for according to cursor moving speed and the angular velocity of rotation of aerial input equipment, is aerial input equipment setting and the corresponding operator scheme of application scenarios.

Application terminal does not need accurate location in the application scenarios having, therefore the cursor of aerial input equipment is identical with the movement law of vertical direction in the horizontal direction, in some application scenarioss, cursor is mainly in screen the latter half motion, therefore requires the cursor of aerial input equipment in the horizontal direction all can not be too fast with the movement of vertical direction.Aerial for example air mouse of input equipment mainly relies on gyroscope or Gravity accelerometer to catch the movement locus of user's operation, and aerial input equipment represents the translational speed of the aerial input equipment in user's hand with for example gyrostatic angular velocity of rotation, the mobile response of aerial input equipment is the movement of cursor to the screen of application terminal, represents with cursor moving speed.Therefore, corresponding different application scenarioss, needs according to cursor moving speed and the angular velocity of rotation of aerial input equipment, is aerial input equipment setting and the corresponding operator scheme of application scenarios.

Application terminal has different application scenarioss, such as menu column navigation scenarios, soft keyboard input scene, interface and webpage etc.For these application scenarioss, the characteristics of motion of aerial input equipment and curve are respectively if Fig. 4-1 is to as shown in Fig. 4-4.

Application terminal is stored in the aerial cursor moving speed of input equipment and the Changing Pattern of angular velocity of rotation in horizontal direction and vertical direction under every kind of application scenarios in the storer of application terminal, and by its corresponding a kind of operator scheme.For example, the curve movement of Fig. 4-1 of foregoing description to Fig. 4-4 is converted into software code, is stored in storer, and correspond to respectively the operator scheme under menu column navigation scenarios, soft keyboard input scene, interface and web application scene.

Second arranges module 202, for shape and/or the color of each operator scheme corresponding to a kind of cursor is set.

Application terminal arranges shape and/or the color of each operator scheme of aerial input equipment corresponding to a kind of cursor, in the time that aerial input equipment enters different operator schemes, the shape of cursor and/or color difference, thus prompting user has entered corresponding operator scheme.

Acquisition module 101 ', obtains the current application scenarios in application terminal.

This acquisition module 101 ' is identical or similar with the function of the acquisition module 101 of previous embodiment, does not repeat them here.

Select module 102 ', for according to described current application scenarios, select the operator scheme of the aerial input equipment being connected with described application terminal.

As a kind of embodiment, select module 102 ' can comprise selected cell 203, be used for according to current application scenarios, select the operator scheme of the aerial input equipment being connected with application terminal by any one selection mode, wherein, this selection mode comprises: software switch, hardware switch, program are selected automatically.

According to current application scenarios, can select by multiple choices mode the operator scheme of aerial input equipment, for example, software switch, hardware switch and program are selected automatically.About the embodiment of hardware switch, on input equipment, increase a hardware switch aloft, in the time that user controls application terminal and enters Another application scene from an application scenarios, press the hardware switch on aerial input equipment simultaneously, aerial input equipment is to application terminal transmitted signal, signal analytic signal are received in application terminal, select corresponding operator scheme.The realization that software switch and program are selected automatically can adopt existing technological means to realize, and does not repeat them here.

Increase multiple choices modes the operator scheme of aerial input equipment is selected, can control listing operator scheme by user and whether work, or program selects automatically, do not need user intervention.

Control module 103 ', for sending to aerial input equipment by the control command of the operator scheme operation of selecting.

This control module 103 ' is identical or similar with the function of the control module 103 of previous embodiment, does not repeat them here.This control command can comprise the aerial input equipment of instruction by the order of the operator scheme operation of selecting with about the data message of this operator scheme.

According to another embodiment of a kind of application terminal provided by the invention, according to the cursor moving speed of aerial input equipment and angular velocity of rotation, for aerial input equipment setting and the corresponding operator scheme of application scenarios, the application scenarios that application terminal is current according to it, select the operator scheme of the aerial input equipment being connected with this application terminal, and control aerial input equipment by this operator scheme operation.By the application scenarios for different, aerial input equipment is moved according to corresponding operator scheme, the user that can meet aerial input equipment under various application scenarioss experiences index, improves the enthusiasm that user experiences.

Fig. 9 is the structural representation of an embodiment of a kind of aerial input equipment of the present invention.As shown in Figure 9, this aerial input equipment comprises:

Receiver module 301, for receive that the application terminal that is connected with aerial input equipment sends by the control command of the operator scheme operation of selecting, the operator scheme of this selection application scenarios current with application terminal is corresponding.

Aerial input equipment is for such as TV of application terminal, projector etc. have various uses, for example, can be used to carry out the menu bar object selection of TV, by soft keyboard input characters, play games and browsing page etc., the purposes of corresponding aerial input equipment, application terminal has different application scenarioss, it is menu column navigation scenarios, soft keyboard input scene, interface and webpage etc., different application scenarioss, the user of aerial input equipment is experienced to index difference, for example, browsing page requires aerial input equipment accurately to locate, play games and require aerial input equipment to be swift in response.

Aerial input equipment receives application terminal by wireless or wired mode sends by the control command of the operator scheme operation of selecting, and the operator scheme of this selection application scenarios current with application terminal is corresponding.

The process that aerial input equipment receives the signal of application terminal can adopt existing technological means, does not repeat them here.

In the present embodiment, this aerial input equipment can be air mouse, bulletin pen.

Operation module 302, for moving according to this operator scheme.

Aerial input equipment is resolved the control command receiving, and according to this operator scheme operation.

According to a kind of aerial input equipment provided by the invention embodiment, aerial input equipment is according to the corresponding operator scheme operation of the application scenarios current with application terminal, the user that can meet aerial input equipment under various application scenarioss experiences index, improves the enthusiasm that user experiences.

Figure 10 is the structural representation of a kind of another embodiment of aerial input equipment.As shown in figure 10, this aerial input equipment comprises:

Receiver module 301 ', for receive that the application terminal that is connected with aerial input equipment sends by the control command of the operator scheme operation of selecting, the operator scheme of this selection application scenarios current with application terminal is corresponding.

This receiver module 301 ' is identical or similar with the function of the receiver module 301 of previous embodiment, does not repeat them here.This control command that aerial input equipment receives comprises that the aerial input equipment of instruction is by the order of the operator scheme operation of selecting with about the cursor moving speed of input equipment and the Changing Pattern of angular velocity of rotation in the air in the data message horizontal direction that this operator scheme specify of this operator scheme and vertical direction.

In the present embodiment, this aerial input equipment can be air mouse, bulletin pen.

Operation module 302 ', for moving according to this operator scheme.

As a kind of embodiment, this operation module 302 ' can comprise mobile unit 401, and for the angular velocity of rotation of the aerial input equipment of basis, the cursor of this aerial input equipment moves according to the cursor moving speed corresponding to operator scheme.

According to the angular velocity of rotation of aerial input equipment, cursor moves according to the cursor moving speed corresponding to operator scheme, and in the horizontal direction specifying according to this operator scheme and vertical direction, the aerial cursor moving speed of input equipment and the Changing Pattern of angular velocity of rotation move.

Fig. 4-1 to Fig. 4-4 have drawn the cursor moving speed of air mouse and the Changing Pattern of angular velocity of rotation under the application scenarios that menu column navigation, soft keyboard input, scene of game and web page browsing scene browse by test of many times, according to the angular velocity of rotation of air mouse, cursor moves according to the cursor moving speed that Changing Pattern draws accordingly respectively in the horizontal direction with in vertical direction.

Because aerial input equipment is to operate in user's hand, in the time that user uses, very small movement or angle tilt can cause the significantly deviation of movement locus, need to carry out anti-shake processing to aerial input equipment.Therefore, this aerial input equipment also comprises the first mobile module 402 and the second mobile module 403.

The first mobile module 402, if be not more than the pixel threshold of setting for the mobile increment of the described cursor along continuous straight runs that calculates according to the angular velocity of rotation of described aerial input equipment and/or vertical direction, described cursor does not move.

The second mobile module 403, the described cursor along continuous straight runs calculating according to the angular velocity of rotation of described aerial input equipment if be used for and/or the mobile increment of vertical direction are greater than the pixel threshold of setting, and described cursor moves to new position by described mobile increment.

The aerial for example position calculation of air mouse cursor of input equipment is to obtain the angular velocity of rotation of air mouse by gyroscope, then calculates the mobile increment of cursor, finally obtains the position of screen cursor.Suppose that t1 moment screen cursor coordinate position is for (x, y), the moment that air mouse produces after Δ x and Δ y displacement is t2, mistiming Δ t=t2-t1, and cursor reposition is that (x+ Δ x, y+ Δ is y).Δ x and Δ y are calculated by mistiming Δ t and cursor moving speed Vx and Vy: Δ x=Vx* Δ t, Δ y=Vy* Δ t.There is corresponding curved line relation in cursor moving speed and gyrostatic angular velocity of rotation, can obtain cursor moving speed by angular velocity of rotation, finally can calculate Δ x and Δ y, obtains the reposition of screen cursor.

Through a large amount of tests, determine that air mouse is in the time being applied in operation televisor, the pixel threshold of this setting is 8 pixels, if | and Δ x+ Δ y|≤8 pixel, cursor does not move, otherwise cursor movement is to reposition, (x+ Δ x, y+ Δ is y).

Human eye is apart from the distance of the general at least 2-3 of televisor rice, 8 pixels are 1/60 ~ 1/80 for common 640*480 resolution, for high definition resolution 1920*1080 TV, be 1/240 ~ 1/135, the vision that user is caused and operate miss are also not obvious.Through a large amount of actual user's tests, substantially adapt to the application operating on TV.

Adopt aforesaid way, can carry out aerial input equipment effectively anti-shake.

In the use procedure of mouse, also have a kind of situation aloft, user clicks the mouse, and at this moment, the angular velocity of rotation of mouse is very little, and for preventing the shake of human body, cursor should move with less speed, accurately clicks needed content to reach.Therefore, this aerial input equipment also comprises:

The 3rd mobile module 404, in the time that the angular velocity of rotation of aerial input equipment is less than 5 radian per second, cursor is to move to the cursor moving speed of 0 value decay.

Preferably, in the time that the angular velocity of rotation of aerial input equipment is less than 5 radian per second, cursor is to move to the cursor moving speed of 0 value decay.The curve movement of aerial input equipment under the application scenarios that Fig. 4-1 to the menu column navigation as shown in Fig. 4-4, soft keyboard input, scene of game and web page browsing scene browsed, gyrostatic angular velocity of rotation is in the time being less than 5 radian per second, and cursor moving speed is rapidly close to 0 value.

According to another embodiment of a kind of aerial input equipment provided by the invention, aerial input equipment is according to the corresponding operator scheme operation of the application scenarios current with application terminal, the user that can meet aerial input equipment under various application scenarioss experiences index, improve the enthusiasm that user experiences, carried out effective anti-shake to the aerial input equipment moving under every kind of operator scheme simultaneously.

Those skilled in the art can be well understood to, and for convenience and simplicity of description, the specific works process of the equipment of foregoing description and module, can describe with reference to the corresponding process in preceding method embodiment, does not repeat them here.

In the several embodiment that provide in the application, should be understood that disclosed equipment and method can realize by another way.For example, device embodiment described above is only schematic, for example, the division of described module, be only that a kind of logic function is divided, when actual realization, can have other dividing mode, for example multiple modules or assembly can in conjunction with or can be integrated in another equipment, or some features can ignore, or do not carry out.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some communication interfaces, indirect coupling or the communication connection of device or module can be electrically, machinery or other form.

The described module as separating component explanation can or can not be also physically to separate, and the parts that show as module can be or can not be also physical locations, can be positioned at a place, or also can be distributed in multiple network element.Can select according to the actual needs wherein some or all of, module realizes the object of the present embodiment scheme.

In addition, the each functional module in each embodiment of the present invention can be integrated in a processing module, can be also that the independent physics of modules exists, also can two or more module integrations in a module.

Finally it should be noted that: above each embodiment, only in order to technical scheme of the present invention to be described, is not intended to limit; Although the present invention is had been described in detail with reference to aforementioned each embodiment, those of ordinary skill in the art is to be understood that: its technical scheme that still can record aforementioned each embodiment is modified, or some or all of technical characterictic is wherein equal to replacement; And these amendments or replacement do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (16)

1. a control method for aerial input equipment operation, is characterized in that, comprising:

Obtain the current application scenarios in application terminal;

According to described current application scenarios, select the operator scheme of the aerial input equipment being connected with described application terminal;

Send by the control command of the operator scheme operation of described selection to described aerial input equipment.

2. the method for claim 1, is characterized in that, described in obtain the current application scenarios in application terminal before, also comprise:

According to the cursor moving speed of described aerial input equipment and angular velocity of rotation, be described aerial input equipment setting and the corresponding operator scheme of application scenarios;

Operator scheme is set described in each corresponding to a kind of shape and/or color of cursor.

3. the method for claim 1, is characterized in that, described according to described current application scenarios, selects the operator scheme of the aerial input equipment being connected with described application terminal to comprise:

According to described current application scenarios, select the operator scheme of the aerial input equipment being connected with described application terminal by any one selection mode;

Wherein, described selection mode comprises: software switch, hardware switch, program are selected automatically.

4. the method as described in claim 1-3 any one, is characterized in that, described application scenarios comprises: menu column navigation scenarios, soft keyboard input scene, scene of game and web page browsing scene.

5. an operation method for aerial input equipment, is characterized in that, comprising:

Receive the control command of moving by the operator scheme of selecting that send the application terminal that is connected with described aerial input equipment, the operator scheme of the described selection application scenarios current with described application terminal is corresponding;

According to described operator scheme operation.

6. method as claimed in claim 5, is characterized in that, describedly comprises according to the operation of described operator scheme:

According to the angular velocity of rotation of described aerial input equipment, the cursor of described aerial input equipment moves according to the cursor moving speed corresponding to described operator scheme.

7. method as claimed in claim 6, is characterized in that, described according to after described operator scheme operation, also comprises:

If the mobile increment of the described cursor along continuous straight runs calculating according to the angular velocity of rotation of described aerial input equipment and/or vertical direction is not more than the pixel threshold of setting, described cursor does not move;

If the mobile increment of the described cursor along continuous straight runs calculating according to the angular velocity of rotation of described aerial input equipment and/or vertical direction is greater than the pixel threshold of setting, described cursor moves to new position by described mobile increment.

8. method as claimed in claim 6, is characterized in that, described according to after described operator scheme operation, also comprises:

In the time that the angular velocity of rotation of described aerial input equipment is less than 5 radian per second, described cursor is to move to the cursor moving speed of 0 value decay.

9. an application terminal, is characterized in that, comprising:

Acquisition module, for obtaining the current application scenarios in application terminal;

Select module, for according to described current application scenarios, select the operator scheme of the aerial input equipment being connected with described application terminal;

Control module, for sending to described aerial input equipment by the control command of the operator scheme operation of described selection.

10. application terminal as claimed in claim 9, is characterized in that, also comprises:

First arranges module, for according to the cursor moving speed of described aerial input equipment and angular velocity of rotation, is described aerial input equipment setting and the corresponding operator scheme of application scenarios;

Second arranges module, for operator scheme being set described in each corresponding to a kind of shape and/or color of cursor.

11. application terminals as claimed in claim 9, is characterized in that, described selection module comprises:

Selected cell, for according to described current application scenarios, selects the operator scheme of the aerial input equipment being connected with described application terminal by any one selection mode;

Wherein, described selection mode comprises: software switch, hardware switch, program are selected automatically.

12. methods as described in claim 9-11 any one, is characterized in that, described application scenarios comprises: menu column navigation scenarios, soft keyboard input scene, scene of game and web page browsing scene.

13. 1 kinds of aerial input equipments, is characterized in that, comprising:

Receiver module, for receive that the application terminal that is connected with described aerial input equipment sends by the control command of the operator scheme operation of selecting, the operator scheme of the described selection application scenarios current with described application terminal is corresponding;

Operation module, for moving according to described operator scheme.

14. aerial input equipments as claimed in claim 13, is characterized in that, described operation module comprises:

Mobile unit, for according to the angular velocity of rotation of described aerial input equipment, the cursor of described aerial input equipment moves according to the cursor moving speed corresponding to described operator scheme.

15. aerial input equipments as claimed in claim 14, is characterized in that, also comprise:

The first mobile module, if be not more than the pixel threshold of setting for the mobile increment of the described cursor along continuous straight runs that calculates according to the angular velocity of rotation of described aerial input equipment and/or vertical direction, described cursor does not move;

The second mobile module, if be greater than the pixel threshold of setting for the mobile increment of the described cursor along continuous straight runs that calculates according to the angular velocity of rotation of described aerial input equipment and/or vertical direction, described cursor moves to new position by described mobile increment.

16. as aerial input equipment according to claim 14, it is characterized in that, also comprises:

The 3rd mobile module, in the time that the angular velocity of rotation of described aerial input equipment is less than 5 radian per second, described cursor is to move to the cursor moving speed of 0 value decay.

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