CN104317452A - Method for controlling intelligent equipment with large screen - Google Patents

Abstract

The invention relates to a method for controlling intelligent equipment with a large screen. The method includes detecting gestures of current users by the aid of a sensor of the intelligent equipment so as to obtain coordinate data of the start ends and the finish ends of the fingers of the current users; enabling the intelligent equipment to acquire curvilinear or linear equations corresponding to the lengths of the fingers of the current users and/or touch positions by means of computation according to the obtained coordinate data; enabling the intelligent equipment to dynamically determine icon exchange areas on the screen by means of computation according to the curvilinear or linear equations, and rearranging icons in the icon exchange areas on the screen again. The gestures of the current users are carried out on the screen. The method has the advantages that the users can conveniently operate the icons on the screen and accordingly can have excellent service experience.

Description

A kind of method manipulating big screen intelligent equipment

Technical field

The present invention relates to smart machine field, particularly a kind of method manipulating big screen intelligent equipment.

Background technology

The crowd having the smart machine such as mobile phone and flat board gets more and more, and it brings many facilities to the life of people, and has been applied in a lot of aspect.But along with the development of science and technology and the new demand of user, small screen device originally can not meet the experience of user well.Based on this, some equipment vendors and research and development company, just have developed the smart machine that screen is larger.But some new problems just create, the screen due to smart machine becomes large and some parameters are higher, and the application that equipment is installed is also a feast for the eyes, can become difficulty alternately handling and more efficiently for it with regard to relative.Remove operating handset with one hand or dull and stereotyped time, some application icons (ICON) finger point on giant-screen less than, cannot open.Especially for adult and child, their finger length is different, and the scope of one-handed performance display screen also just has difference and limitation.

Summary of the invention

In order to solve the problem, the invention provides a kind of method manipulating big screen intelligent equipment, finger coordinate or the length of arbitrary user is obtained based on sensor, then by combinations such as mathematical computations and rectilinear curve equations, carry out the icon layout on dynamic adjustments desktop, so that user can conveniently click original one-handed performance less than icon, obtain better experience.

In order to achieve the above object, technical scheme of the present invention is to provide a kind of method manipulating big screen intelligent equipment, wherein, and the sensor of smart machine, the gesture that active user carries out on screen is detected, with the coordinate data at the top and end that obtain active user's finger;

Smart machine, according to the coordinate data obtained, calculates the curve corresponding with active user's finger length and/or touch location or straight-line equation;

Smart machine calculates according to curve or straight-line equation, dynamically determines the icon exchange area on screen, and carries out layout again to the icon in onscreen icons exchange area.

Preferably, after described sensor detects another gesture that active user carries out on screen, again obtain user by described smart machine and point the coordinate data of holding the whole story, calculate corresponding curve or straight-line equation, dynamically determine new icon exchange area and layout is again carried out to icon wherein.

Preferably, after described sensor detects the gesture that another user carries out on screen, again obtain user by described smart machine and point the coordinate data of holding the whole story, calculate corresponding curve or straight-line equation, dynamically determine new icon exchange area and layout is again carried out to icon wherein.

Preferably, on screen, dynamically determine that the process of icon exchange area comprises by described smart machine:

Determine that a user points line between top and end until the first straight line of its extended line;

Determine that one is pointed top by user and is parallel to second straight line in screen width direction;

Determine that one is parallel to the 3rd straight line in screen width direction by user's finger tips;

Matched by each border and first straight line of screen or the second straight line or the 3rd straight line, screen divider is obtained multiple screen area;

The icon be wherein set as in any two screen areas of icon exchange area is carried out position exchange.

Preferably, during the gesture operation screen of user with digital flexion, smart machine determines the curvilinear equation corresponding to this gesture, by calculating the tangent line determining peak in curvilinear equation:

If user's gesture is convex row curve, using protruding most on convex row curve a bit as peak, to the curve tangent line of this peak be crossed as the first straight line, cross peak or cross finger top and the straight line being parallel to screen base as the second straight line, cross finger tips and the straight line being parallel to screen base as the 3rd straight line;

If user's gesture is concave curve, to be exactly that finger top is as peak, to the curve tangent line of this peak be crossed as the first straight line, to this peak be crossed and the straight line being parallel to screen base as the second straight line, will finger tips be crossed and the straight line being parallel to screen base as the 3rd straight line.

Preferably, described icon exchange area be below the first straight line and above the second straight line between first area, and the second area on the left of the first straight line, between the second straight line and the 3rd straight line.

Preferably, described icon exchange area be below the first straight line and above the second straight line between first area, and the 3rd region on the right side of the first straight line, between the second straight line and the 3rd straight line.

Preferably, what the sensor of described smart machine detected that user carries out can cause when screen being pointed another gesture that straight slope between end at the whole story changes, dynamically determine the division scope that each icon exchange area is new on screen, and layout is again carried out to the icon in icon exchange area.

Preferably, the finger position of cusp that the sensor of described smart machine detects respective user one finger gathers the coordinate at finger top, and detects finger abdomen minor details of this finger of respective user or root position to gather the coordinate of finger tips.

Preferably, the finger position of cusp of sensor detection respective user one finger of described smart machine gathers the coordinate at finger top, and detects another finger position of cusp pointed of respective user to gather the coordinate of finger tips.

Compared with prior art, the method of manipulation big screen intelligent equipment of the present invention, its advantage is: the present invention is by the gesture operation of real-time listening user on screen, obtain finger beginning ending coordinates, to determine corresponding icon exchange area, and adjust icon layout, be convenient to the singlehanded icon that cannot operate on screen of user, obtain better experience.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of control method of the present invention;

Fig. 2 is the schematic diagram of icon layout adjustment algorithm in control method of the present invention;

Fig. 3 is the screen interface schematic diagram of icon layout adjustment in control method of the present invention;

Fig. 4 is the screen interface schematic diagram of a concrete example of icon layout adjustment in control method of the present invention;

Fig. 5 is screen interface schematic diagram when gesture curve is convex row curve in control method of the present invention;

Fig. 6 is screen interface schematic diagram when gesture curve is recessed row curve in control method of the present invention.

Embodiment

The invention provides a kind of method manipulating big screen intelligent equipment, be applicable to the situation different with child's finger length of being grown up, coordinate or length can be pointed for user, dynamically change the layout of application icon on touch-screen; When user is with pointing to local time far away, application icon can be moved to the place that user can get at a distance, facilitating user's one-handed performance.

As shown in Figure 1, method of the present invention, its principle of work is as follows:

The first, by the sensor on backstage, the gesture that user carries out on screen is detected, obtain the coordinate that active user points top and end;

The second, according to the coordinate data obtained, calculate the corresponding curve of active user's finger length or straight-line equation;

3rd, based on algorithm of the present invention (hereafter can specifically describe), layout is again carried out to the picture mark position on screen.

4th, if the icon needing operating distance farther, the method for recurrence can be taked to repeat the operation of the 3rd step.

Finally, application drawing rotating savings is at a distance moved to the place that on screen, user can singlehanded get at, and facilitates user to carry out the operation oneself wanted.

Coordinate see shown in Fig. 2, Fig. 3, icon layout adjustment algorithm provided by the invention is as follows:

S1, determine straight line (or curve) equation of user's gesture, and then determine that one represents that user's finger calculates the slope of the first straight line 21, to know the direction that user points at the first straight line 21 of screen 10 end position at the upper whole story;

S2, on screen 10, determine that one is pointed top 11 by user and is parallel to second straight line 22 in screen width direction;

S3, on screen 10, determine that one is parallel to the 3rd straight line 23 in screen width direction by user's finger tips 12;

S4, to determine on screen 10 below the first straight line 21 and above the second straight line 22 between first area 31;

S5, determine the second area 32 on the right side of the first straight line 21, between the second straight line 22 and the 3rd straight line 23 on screen 10;

S6, the icon of first area 31 is dynamically dissociated to second area 32, the icon of second area 32 is dynamically dissociated to first area 31 meanwhile, that is, row stochastic exchange is entered to the icon of first area 31 and second area 32.The size of described first area 31 and second area 32 is dynamically determined, matches with the point of each one finger length, institute's touch screen curtain.

Or S5 can also have other embodiments, is designated as S5 ', such as, it is the 3rd region 33 determined on screen 10 on the left of the first straight line 21, between the second straight line 22 and the 3rd straight line 23; Then, can be then that the icon in first area 31 and the 3rd region 33 is exchanged in subsequent step S6 '.

In addition, although do not describe in detail above, but be appreciated that with reference to the accompanying drawings, actually can be coordinated with described first straight line 21, second straight line 22, the 3rd straight line 23 by the border up and down of screen, to divide corresponding screen area (as first area 31 can be expressed as the region surrounded by screen right margin, the first straight line 21, second straight line 22 equally).In all screen areas that screen 10 is marked off by above-mentioned some borders and straight line principle jointly, can optional two as icon exchange area, and above only describe wherein several preferred example.

The Region dividing described in the various embodiments described above if suppose and adjustment mode are performances when corresponding to left hand (or right hand) function screen; Then it will be appreciated by those skilled in the art that, if during with the right hand (or left hand) function screen, the end at the whole story that screen is pointed, the direction of the first straight line and the division in region etc. all may respective change, such as, be in and position symmetrical shown in Fig. 3, Fig. 4.But the principle that when right-hand operated and left-handed operation, algorithm divides icon exchange area and process are similar, repeat no more here.

The top 11 of two round dot abstract representation fingers in Fig. 3 and end 12; Wherein, can be to the line at top 11 until its extended line is as the first straight line 21 to carry out slope calculating using user's finger tips 12 on screen 10.

In addition, when a certain user is irregular operating handset, when namely operating screen in digital flexion situation, smart machine probably can depict the equation of this curve by calculating, determine the peak of this curve, and obtain the tangent line of gesture operation peak by infinitesimal analysis.

As shown in Figure 5, if this gesture curve is convex row curve, then peak is protrude most one Q (X of this curve, Y), cross the first straight line that the curve tangent line F of this peak is corresponding above-mentioned, cross peak and be parallel to the corresponding second above-mentioned straight line of straight line S on screen base, crossing finger tips (A point) and the straight line T being parallel to screen base corresponds to the 3rd straight line, then follow-uply just can determine corresponding icon exchange area according to above-described algorithm.Or, in another example of convex row curve, be then will cross finger top (B point) and the straight line P being parallel to screen base as the second straight line, other operations are constant.

As shown in Figure 6, if this gesture curve is concave curve, then assert that peak points top (B point) exactly, to be the straight line on this peak normal to screen base in this example of curve tangent line s(crossing this peak) as the first straight line, cross this peak and the straight line s being parallel to screen base as the second straight line, cross finger tips (A point) and the straight line t being parallel to screen base as the 3rd straight line, then follow-uply just can determine corresponding icon exchange area according to above-described algorithm.

Shown in Figure 4, when user points tactile upper screen, the sensor (based on pressure or thermoinduction technology) on smart machine, just directly can obtain the coordinate A (X1 of 2 of end and the top correspondence on screen of finger, and B (X2, Y2) Y1).Then, according to above-mentioned algorithm determination icon exchange area (first area D and second area d), and the icon in two regions is exchanged respectively.In upper example, setting is the random icon exchanged in two regions, does not have concrete constraint; Also according to actual conditions, icon can be exchanged and sets up some corresponding conditions in other embodiments.

For finger hold the whole story slope k of point-to-point transmission straight line=| Y2-Y1|/| X2-X1|, along with the continuous increase of k, the increasing extent of region D, d is large, then the icon intercoursed also can become many.Such as, during beginning, icon ICON1 can exchange arbitrarily with the icon in ICON5-ICON12, and along with the increase of k, then icon ICON2-ICON4 also can exchange with the icon of underlying region.

When user is in order to icon that operating distance is farther, its gesture operation can be adjusted, and make smart machine based on algorithm of the present invention, recalculate new icon exchange area.Such as in the example shown in fig. 4, user's one can be allowed to point on screen substantially motionless and make position, top to the mode of illustrated screen left movement with terminal position, increase slope and then expand icon exchange area; If otherwise top moves to illustrated right, slope can be reduced, reduce icon exchange area.

In certain embodiments, finger top is the finger tip point of user one finger (as thumb or forefinger), and the finger abdomen minor details of this finger of finger tips respective user or root (namely near the position of palm).Such as, when the first step, user will be used for a finger contact of function screen on screen, so that the coordinate that sensor obtains at 2 was held as the whole story.

Or in further embodiments, finger top is the finger tip point of user one finger (as thumb), and finger tips is the finger tip point of another finger (as forefinger) of user.Such as, when the first step, user carries out amplifying gesture with two fingers or reduces gesture on screen, then sensor is that the touch location of acquisition two finger fingertips was held as the whole story.

And if same user have adjusted the gesture that it is contacted with screen, supposeing that a finger stretches never completely changes into when stretching completely, or, when carrying out the amplifying gesture of the distance increase between user's two finger tips, be equivalent to make the distance between end at whole story on screen to increase, then corresponding icon exchange area can adjust according to above-mentioned algorithm by smart machine, and layout cursor position again.

In different examples, to icon layout again each time, can be superimposed upon last distributing adjustment basis on carry out; Also can be make icon layout each time adjustment be all temporary transient, be set in advance in the icon layout before all returning to adjustment after user carries out icon operation (or being set as not operating within the time limit).

In sum, control method provided by the invention, the gesture operation of real-time listening user on screen, obtains finger beginning ending coordinates, to determine corresponding icon exchange area, and adjusts icon layout.Described big screen intelligent equipment, be the equipment that general reference user one hand cannot operate whole icon on screen, method of the present invention is particularly useful for this equipment.And for the method described in above-mentioned some embodiments is applied to other equipment to improve the scheme of Consumer's Experience, the present invention is not limited.

Although content of the present invention has done detailed introduction by above preferred embodiment, will be appreciated that above-mentioned description should not be considered to limitation of the present invention.After those skilled in the art have read foregoing, for multiple amendment of the present invention and substitute will be all apparent.Therefore, protection scope of the present invention should be limited to the appended claims.

Claims (10)

1. manipulate a method for big screen intelligent equipment, it is characterized in that,

The sensor of smart machine, detects the gesture that active user carries out on screen, with the coordinate data at the top and end that obtain active user's finger;

Smart machine, according to the coordinate data obtained, calculates the curve corresponding with active user's finger length and/or touch location or straight-line equation;

Smart machine calculates according to curve or straight-line equation, dynamically determines the icon exchange area on screen, and carries out layout again to the icon in onscreen icons exchange area.

2. the method for claim 1, is characterized in that,

After described sensor detects another gesture that active user carries out on screen, again obtain user by described smart machine and point the coordinate data of holding the whole story, calculate corresponding curve or straight-line equation, dynamically determine new icon exchange area and layout is again carried out to icon wherein.

3. the method for claim 1, is characterized in that,

After described sensor detects the gesture that another user carries out on screen, again obtain user by described smart machine and point the coordinate data of holding the whole story, calculate corresponding curve or straight-line equation, dynamically determine new icon exchange area and layout is again carried out to icon wherein.

4. the method for claim 1, is characterized in that,

On screen, dynamically determined the process of icon exchange area by described smart machine, comprise:

Determine that a user points line between top and end until the first straight line of its extended line;

Determine that one is pointed top by user and is parallel to second straight line in screen width direction;

Determine that one is parallel to the 3rd straight line in screen width direction by user's finger tips;

Matched by each border and first straight line of screen or the second straight line or the 3rd straight line, screen divider is obtained multiple screen area;

The icon be wherein set as in any two screen areas of icon exchange area is carried out position exchange.

5. the method for claim 1, is characterized in that,

During the gesture operation screen of user with digital flexion, smart machine determines the curvilinear equation corresponding to this gesture, by calculating the tangent line determining peak in curvilinear equation:

If user's gesture is convex row curve, using protruding most on convex row curve a bit as peak (Q), to the curve tangent line (F) of this peak (Q) be crossed as the first straight line, cross peak (Q) or cross finger top (B) and the straight line (S, P) being parallel to screen base as the second straight line, cross finger tips (A) and the straight line (T) being parallel to screen base as the 3rd straight line;

If user's gesture is concave curve, to be exactly point top (B) as peak, to curve tangent line (s) of this peak be crossed as the first straight line, to this peak be crossed and the straight line (s) being parallel to screen base as the second straight line, by finger tips (A) and the straight line (t) being parallel to screen base as the 3rd straight line.

6. the method as described in claim 4 or 5, is characterized in that,

Described icon exchange area be below the first straight line and above the second straight line between first area, and the second area on the left of the first straight line, between the second straight line and the 3rd straight line.

7. the method as described in claim 4 or 5, is characterized in that,

Described icon exchange area be below the first straight line and above the second straight line between first area, and the 3rd region on the right side of the first straight line, between the second straight line and the 3rd straight line.

8. the method as described in claim 4 or 5, is characterized in that,

What the sensor of described smart machine detected that user carries out can cause when screen being pointed another gesture that straight slope between end at the whole story changes, dynamically determine the division scope that each icon exchange area is new on screen, and layout is again carried out to the icon in icon exchange area.

9. the method for claim 1, is characterized in that,

The finger position of cusp that the sensor of described smart machine detects respective user one finger gathers the coordinate at finger top, and detects finger abdomen minor details of this finger of respective user or root position to gather the coordinate of finger tips.

10. the method for claim 1, is characterized in that,

The finger position of cusp of sensor detection respective user one finger of described smart machine gathers the coordinate at finger top, and detects another finger position of cusp pointed of respective user to gather the coordinate of finger tips.