CN105094440A - Touch screen anti-shaking method and system based on mobile terminal and mobile terminal - Google Patents

Abstract

The invention provides a touch screen anti-shaking method and system based on a mobile terminal and the mobile terminal. The method comprises the specific steps of monitoring the moving direction and speed of the mobile terminal in real time, and working out a speed value V (Vx, Vy) of the mobile terminal moving relative to a user; when the operation of touching the mobile terminal is detected, obtaining a coordinate value P1 (x1, y1) of an actual touch point of the mobile terminal; according to the speed value V and the coordinate value P1 and a preset mobile terminal adjustable reference value k (kx, ky), calculating a coordinate value P2 (x2, y2) obtained after the mobile terminal is moved and corrected within a period of time t, and outputting and displaying the coordinate value P2 as a touch anti-shaking processing result. According to the touch screen anti-shaking method and system, a motion sensor in the mobile terminal and a preset touch position correction algorithm are combined, the touch operation accuracy during movement is improved, and convenience is provided for the user.

Description

A kind of touch-screen anti-fluttering method based on mobile terminal, system and mobile terminal

Technical field

The present invention relates to technical field of mobile terminals, particularly relate to a kind of touch-screen anti-fluttering method based on mobile terminal, system and mobile terminal.

Background technology

Along with the development of mobile communication and improving constantly of people's living standard, the use of various mobile terminals as mobile phone is more and more universal, and mobile phone has become indispensable means of communication in people's life.Simultaneously, due to the generation of APP application various in smart mobile phone, a lot of user is by bus or also need in real time when doing outdoor exercises to carry out touch control operation to smart machine, when but user operates touch-screen in traveling process or in jarring vehicle, frequent pressing is inaccurate, cause input error to take place frequently, bring great inconvenience to user.

It can thus be appreciated that prior art has yet to be improved and developed.

Summary of the invention

The technical problem to be solved in the present invention is, for the above-mentioned defect of prior art, a kind of touch-screen anti-fluttering method based on mobile terminal, system and mobile terminal are provided, be intended to overcome by the present invention the above defect existed in prior art, by revising the touch-screen position of input, improve the accuracy of touch operation, for user provides convenience.

The technical scheme that technical solution problem of the present invention adopts is as follows:

Based on a touch-screen anti-fluttering method for mobile terminal, wherein, comprise step:

The direction of S1, the movement of Real-Time Monitoring mobile terminal and speed, calculate the velocity amplitude V(V of mobile terminal relative to user's movement _x, V _y);

S2, when detect touch mobile terminal operation time, obtain the coordinate figure P of described mobile terminal actual touch point ₁(x ₁, y ₁);

S3, according to described velocity amplitude V, coordinate figure P _1,and the mobile terminal adjustable parameter value k(k preset _x, k _y), calculate described mobile terminal in a time period t and move revised coordinate figure P ₂(x ₂, y ₂), and by described coordinate figure P ₂output display is carried out as touch stabilization result.

The described touch-screen anti-fluttering method based on mobile terminal, wherein, described step S1 specifically comprises step:

S11, to obtain touching the average velocity of the user's movement occurred in last Preset Time, being labeled as user velocity value V ₀(V _0x, V _0y);

S12, obtain the Instantaneous velocity values of mobile terminal when moving, be labeled as Instantaneous velocity values V ' (V ' _x, V ' _y);

S13, according to computing formula V _x=V ' _x-V _0x, V _y=V ' _y-V _0ycalculate the velocity amplitude V(V of mobile terminal relative to user's movement _x, V _y).

The described touch-screen anti-fluttering method based on mobile terminal, wherein, sets corresponding mobile terminal adjustable parameter value k(k according to the screen size of mobile terminal and screen resolution in advance _x, k _y).

The described touch-screen anti-fluttering method based on mobile terminal, wherein, described time period t is defined as t=Min ((t ₂-t ₁), T), wherein t ₁, t ₂be respectively the double touch-control time point detected, T is default stabilization treatment cycle.

The described touch-screen anti-fluttering method based on mobile terminal, wherein, described step S3 specifically comprises step:

S31, when detecting that double touch-control time point interval is greater than default stabilization cycle T, according to computing formula x ₂=x ₁+ k _xv _xt,y ₂=y ₁+ k _yv _yt calculates mobile terminal and moves revised coordinate figure P ₂(x ₂, y ₂);

S32, when detecting that double touch-control time point interval is less than default stabilization cycle T, according to computing formula x ₂'=x ₁+ k _xv _x(t ₂-t ₁), y ₂'=y ₁+ k _yv _y(t ₂-t ₁) calculate mobile terminal and move revised coordinate figure P ₂' (x ₂', y ₂');

S33, the described revised coordinate figure calculated is carried out output display as touch stabilization result.

Based on a touch-screen stabilization system for mobile terminal, wherein, comprising:

Velocity amplitude computing module, for direction and the speed of the movement of Real-Time Monitoring mobile terminal, calculates the velocity amplitude V(V of mobile terminal relative to user's movement _x, V _y);

Coordinate figure acquisition module, for when detecting that touching mobile terminal operates, obtains the coordinate figure P of described mobile terminal actual touch point ₁(x ₁, y ₁);

Coordinate figure correcting module, for according to described velocity amplitude V, coordinate figure P _1,and the mobile terminal adjustable parameter value k(k preset _x, k _y), calculate described mobile terminal in a time period t and move revised coordinate figure P ₂(x ₂, y ₂), and by described coordinate figure P ₂output display is carried out as touch stabilization result.

The described touch-screen stabilization system based on mobile terminal, wherein, described velocity amplitude computing module comprises:

First Speed acquiring unit, for obtaining at the average velocity touching the user's movement occurred in last Preset Time, is labeled as user velocity value V ₀(V _0x, V _0y);

Second speed acquiring unit, for obtaining Instantaneous velocity values when mobile terminal moves, be labeled as Instantaneous velocity values V ' (V ' _x, V ' _y);

Translational speed value computing unit, for according to computing formula V _x=V ' _x-V _0x, V _y=V ' _y-V _0ycalculate the velocity amplitude V(V of mobile terminal relative to user's movement _x, V _y).

The described touch-screen stabilization system based on mobile terminal, wherein, sets corresponding mobile terminal adjustable parameter value k(k according to the screen size of mobile terminal and screen resolution in advance _x, k _y).

The described touch-screen stabilization system based on mobile terminal, wherein, described time period t is defined as t=Min ((t ₂-t ₁), T), wherein t ₁, t ₂be respectively the double touch-control time point detected, T is default stabilization treatment cycle;

Described coordinate figure correcting module comprises:

First computing unit, for when detecting that double touch-control time point interval is greater than default stabilization cycle T, according to computing formula x ₂=x ₁+ k _xv _xt,y ₂=y ₁+ k _yv _yt calculates mobile terminal and moves revised coordinate figure P ₂(x ₂, y ₂);

Second computing unit, for when detecting that double touch-control time point interval is less than default stabilization cycle T, according to computing formula x ₂'=x ₁+ k _xv _x(t ₂-t ₁), y ₂'=y ₁+ k _yv _y(t ₂-t ₁) calculate mobile terminal and move revised coordinate figure P ₂' (x ₂', y ₂');

Output display unit, for carrying out output display using the described revised coordinate figure calculated as touch stabilization result.

A kind of mobile terminal, wherein, comprises as above based on the touch-screen stabilization system of mobile terminal.

A kind of touch-screen anti-fluttering method based on mobile terminal provided by the present invention, system and mobile terminal, described method specifically comprises: the direction of Real-Time Monitoring mobile terminal movement and speed, calculates the velocity amplitude V(V of mobile terminal relative to user's movement _x, V _y); When detecting that touching mobile terminal operates, obtain the coordinate figure P of described mobile terminal actual touch point ₁(x ₁, y ₁); According to described velocity amplitude V, coordinate figure P _1,and the mobile terminal adjustable parameter value k(k preset _x, k _y), calculate described mobile terminal in a time period t and move revised coordinate figure P ₂(x ₂, y ₂), and by described coordinate figure P ₂output display is carried out as touch stabilization result.Present invention utilizes motion sensor integrated in the terminal (as accelerometer, gyroscope etc.) direction and the speed of equipment moving detected, in conjunction with the touch location correction algorithm that presets, improve the accuracy of touch operation in motion, provide users with the convenient.

Accompanying drawing explanation

Fig. 1 is the process flow diagram of the preferred embodiment of the touch-screen anti-fluttering method that the present invention is based on mobile terminal.

Fig. 2 is the Application Example schematic diagram of the touch-screen anti-fluttering method that the present invention is based on mobile terminal.

Fig. 3 is the functional block diagram of the preferred embodiment of the touch-screen stabilization system that the present invention is based on mobile terminal.

Embodiment

The invention discloses a kind of touch-screen anti-fluttering method based on mobile terminal, system and mobile terminal, for making object of the present invention, technical scheme and advantage clearly, clearly, developing simultaneously referring to accompanying drawing, the present invention is described in more detail for embodiment.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Refer to Fig. 1, Fig. 1 is the process flow diagram of the preferred embodiment of the touch-screen anti-fluttering method that the present invention is based on mobile terminal.The touch-screen anti-fluttering method based on mobile terminal shown in Fig. 1, comprising:

The direction of step S101, the movement of Real-Time Monitoring mobile terminal and speed, calculate the velocity amplitude V(V of mobile terminal relative to user's movement _x, V _y).

In the embodiment of the present invention, described step S101 specifically comprises step:

S11, to obtain touching the average velocity of the user's movement occurred in last Preset Time, being labeled as user velocity value V ₀(V _0x, V _0y);

S12, obtain the Instantaneous velocity values of mobile terminal when moving, be labeled as Instantaneous velocity values V ' (V ' _x, V ' _y);

S13, according to computing formula V _x=V ' _x-V _0x, V _y=V ' _y-V _0ycalculate the velocity amplitude V(V of mobile terminal relative to user's movement _x, V _y).

That is, when user operates touch-screen in traveling process or in jarring vehicle, easily cause touch location inaccurate.As, when user thinks that touch coordinate is P ₁(x ₀, y ₀), but due to the instantaneous movement of mobile phone, actual touch to be but P ₂(x ₁, y ₁), therefore, need to revise the position P2 of actual touch, make it as far as possible close with P1.The embodiment of the present invention adopts motion sensor integrated in mobile terminal device (as accelerometer, gyroscope etc.) for the direction of checkout equipment movement and speed, and define relevant velocity amplitude, comprising: the instantaneous velocity of the planar movement of equipment be V ' (V ' _x, V ' _y), the speed of the relative user of equipment is V (V _x, V _y), user velocity is V ₀(V _0x, V _0y), wherein, the definition of user velocity is the equipment average velocity occurred in touch for the previous period; Afterwards, in conjunction with certain touch location correction algorithm, for improving the touch location accuracy in motion.

Step S102, when detect touch mobile terminal operation time, obtain the coordinate figure P of described mobile terminal actual touch point ₁(x ₁, y ₁).

Step S103, according to described velocity amplitude V, coordinate figure P _1,and the mobile terminal adjustable parameter value k(k preset _x, k _y), calculate described mobile terminal in a time period t and move revised coordinate figure P ₂(x ₂, y ₂), and by described coordinate figure P ₂output display is carried out as touch stabilization result.

In the embodiment of the present invention, described time period t is defined as t=Min ((t ₂-t ₁), T), wherein t ₁, t ₂be respectively the double touch-control time point detected, T is default stabilization treatment cycle.Therefore, described step S103 specifically comprises step:

S31, set corresponding mobile terminal adjustable parameter value k(k according to the screen size of mobile terminal and screen resolution in advance _x, k _y);

S32, when detecting that double touch-control time point interval is greater than default stabilization cycle T, according to computing formula x ₂=x ₁+ k _xv _xt,y ₂=y ₁+ k _yv _yt calculates mobile terminal and moves revised coordinate figure P ₂(x ₂, y ₂);

S33, when detecting that double touch-control time point interval is less than default stabilization cycle T, according to computing formula x ₂'=x ₁+ k _xv _x(t ₂-t ₁), y ₂'=y ₁+ k _yv _y(t ₂-t ₁) calculate mobile terminal and move revised coordinate figure P ₂' (x ₂', y ₂');

S34, the described revised coordinate figure calculated is carried out output display as touch stabilization result.

In the embodiment of the present invention, described k _x, k _ythe size according to different terminals, screen resolution and default adjustable parameter; T is time window, and have relation with touch click speed, for clicking frequently, the t time is shorter; For intermittent click, the optional length of t time window a bit.Further, t=Min ((t is defined ₂-t ₁), T).Described t ₁, t ₂be respectively the time of double touch-control report point, when not occurring in some cycles T reporting a little, time window is T to the maximum again; During first time touch-control, t=0s, will not revise.

According to above computing formula, obtain revised numerical value x ₂be similar to x ₀, y ₂be similar to y ₀, and described revised coordinate figure is carried out output display as touch stabilization result.

Below by by concrete Application Example, the present invention will be further described.Fig. 2 is the Application Example schematic diagram of the touch-screen anti-fluttering method that the present invention is based on mobile terminal.As shown in Figure 2, user is in traveling process or in jarring vehicle during operating mobile terminal touch-screen, and when user prepares to touch, the position of screen is S ₁, target touch point is S ₁p under state ₁(x ₀, y ₀), and when in fact having touched, the change in location of screen is S ₂, now at state S ₂under target touch point should there is corresponding change, be way shown in touch point P ₂(x ₀, y ₀), but because middle mobile terminal generation of advancing is relative to the instantaneous movement of human body, cause final state S ₂under actual touch spots be P ₂₁(x ₁, y ₁), with P2 (x ₀, y ₀) differ greatly, therefore, need to carry out position correction.

Suppose the instantaneous velocity of the planar movement of equipment be V ' (V ' _x, V ' _y), the speed of the relative user of equipment is V (V _x, V _y), user velocity is V ₀(V _0x, V _0y), wherein, the definition of user velocity is the equipment average velocity occurred in touch for the previous period.Adopt certain calculation expression, the position P after Motion correction can be obtained ₂₂(x ₂, y ₂), after selecting rational parameter, this position will very close to ownership goal touch position P ₂(x ₀, y ₀).Concrete formula is as follows:

X ₂=x ₁+ k _xv _xt; y ₂=y ₁+ k _yv _yt; Wherein, V _x=V ' _x-V _0x; V _y=V ' _y-V _0y.

Further, described k _x, k _ythe size according to different terminals, screen resolution and default adjustable parameter; T is time window, and have relation with touch click speed, for clicking frequently, the t time is shorter; For intermittent click, the optional length of t time window a bit.Further, t=Min ((t is defined ₂-t ₁), T).Described t ₁, t ₂be respectively the time of double touch-control report point, when not occurring in some cycles T reporting a little, time window is T to the maximum again; During first time touch-control, t=0s, will not revise.

Mobile terminal, according to above computing formula, obtains revised numerical value x ₂be similar to x ₀, y ₂be similar to y ₀, and described revised coordinate figure is carried out output display as touch stabilization result.

Therefore, present invention utilizes direction and speed that motion sensor (as accelerometer, gyroscope etc.) integrated in the terminal detects equipment moving, in conjunction with the touch location correction algorithm that presets, improve the accuracy of touch operation in motion, provide users with the convenient.

Based on above-described embodiment, the present invention also provides a kind of touch-screen stabilization system based on mobile terminal, as shown in Figure 3, comprising:

Velocity amplitude computing module 100, for direction and the speed of the movement of Real-Time Monitoring mobile terminal, calculates the velocity amplitude V(V of mobile terminal relative to user's movement _x, V _y); As detailed above.

Coordinate figure acquisition module 200, for when detecting that touching mobile terminal operates, obtains the coordinate figure P of described mobile terminal actual touch point ₁(x ₁, y ₁); As detailed above.

Coordinate figure correcting module 300, for according to described velocity amplitude V, coordinate figure P _1,and the mobile terminal adjustable parameter value k(k preset _x, k _y), calculate described mobile terminal in a time period t and move revised coordinate figure P ₂(x ₂, y ₂), and by described coordinate figure P ₂output display is carried out as touch stabilization result; As detailed above.

Further, described velocity amplitude computing module 100 comprises:

First Speed acquiring unit, for obtaining at the average velocity touching the user's movement occurred in last Preset Time, is labeled as user velocity value V ₀(V _0x, V _0y); As detailed above.

Second speed acquiring unit, for obtaining Instantaneous velocity values when mobile terminal moves, be labeled as Instantaneous velocity values V ' (V ' _x, V ' _y); As detailed above.

Translational speed value computing unit, for according to computing formula V _x=V ' _x-V _0x, V _y=V ' _y-V _0ycalculate the velocity amplitude V(V of mobile terminal relative to user's movement _x, V _y); As detailed above.

Further, corresponding mobile terminal adjustable parameter value k(k is set according to the screen size of mobile terminal and screen resolution in advance _x, k _y).

Further, described time period t is defined as t=Min ((t ₂-t ₁), T), wherein t ₁, t ₂be respectively the double touch-control time point detected, T is default stabilization treatment cycle;

Described coordinate figure correcting module 300 comprises:

First computing unit, for when detecting that double touch-control time point interval is greater than default stabilization cycle T, according to computing formula x ₂=x ₁+ k _xv _xt,y ₂=y ₁+ k _yv _yt calculates mobile terminal and moves revised coordinate figure P ₂(x ₂, y ₂); As detailed above.

Second computing unit, for when detecting that double touch-control time point interval is less than default stabilization cycle T, according to computing formula x ₂'=x ₁+ k _xv _x(t ₂-t ₁), y ₂'=y ₁+ k _yv _y(t ₂-t ₁) calculate mobile terminal and move revised coordinate figure P ₂' (x ₂', y ₂'); As detailed above.

Output display unit, for carrying out output display using the described revised coordinate figure calculated as touch stabilization result; As detailed above.

Based on above-described embodiment, the present invention also provides a kind of embodiment of mobile terminal, and the mobile terminal described in the present embodiment comprises arbitraryly states the described touch-screen stabilization system based on mobile terminal above.

In sum, a kind of touch-screen anti-fluttering method based on mobile terminal provided by the present invention, system and mobile terminal, described method specifically comprises: the direction of Real-Time Monitoring mobile terminal movement and speed, calculates the velocity amplitude V(V of mobile terminal relative to user's movement _x, V _y); When detecting that touching mobile terminal operates, obtain the coordinate figure P of described mobile terminal actual touch point ₁(x ₁, y ₁); According to described velocity amplitude V, coordinate figure P _1,and the mobile terminal adjustable parameter value k(k preset _x, k _y), calculate described mobile terminal in a time period t and move revised coordinate figure P ₂(x ₂, y ₂), and by described coordinate figure P ₂output display is carried out as touch stabilization result.Present invention utilizes motion sensor integrated in the terminal (as accelerometer, gyroscope etc.) direction and the speed of equipment moving detected, in conjunction with the touch location correction algorithm that presets, improve the accuracy of touch operation in motion, provide users with the convenient.

Should be understood that, application of the present invention is not limited to above-mentioned citing, for those of ordinary skills, can be improved according to the above description or convert, and all these improve and convert the protection domain that all should belong to claims of the present invention.

Claims (10)

1., based on a touch-screen anti-fluttering method for mobile terminal, it is characterized in that, comprise step:

The direction of S1, the movement of Real-Time Monitoring mobile terminal and speed, calculate the velocity amplitude V(V of mobile terminal relative to user's movement _x, V _y);

S2, when detect touch mobile terminal operation time, obtain the coordinate figure P of described mobile terminal actual touch point ₁(x ₁, y ₁);

S3, according to described velocity amplitude V, coordinate figure P _1,and the mobile terminal adjustable parameter value k(k preset _x, k _y), calculate described mobile terminal in a time period t and move revised coordinate figure P ₂(x ₂, y ₂), and by described coordinate figure P ₂output display is carried out as touch stabilization result.

2. the touch-screen anti-fluttering method based on mobile terminal according to claim 1, it is characterized in that, described step S1 specifically comprises step:

S11, to obtain touching the average velocity of the user's movement occurred in last Preset Time, being labeled as user velocity value V ₀(V _0x, V _0y);

S12, obtain the Instantaneous velocity values of mobile terminal when moving, be labeled as Instantaneous velocity values V ' (V ' _x, V ' _y);

S13, according to computing formula V _x=V ' _x-V _0x, V _y=V ' _y-V _0ycalculate the velocity amplitude V(V of mobile terminal relative to user's movement _x, V _y).

3. the touch-screen anti-fluttering method based on mobile terminal according to claim 1, is characterized in that, sets corresponding mobile terminal adjustable parameter value k(k in advance according to the screen size of mobile terminal and screen resolution _x, k _y).

4. the touch-screen anti-fluttering method based on mobile terminal according to claim 1, it is characterized in that, described time period t is defined as t=Min ((t ₂-t ₁), T), wherein t ₁, t ₂be respectively the double touch-control time point detected, T is default stabilization treatment cycle.

5. the touch-screen anti-fluttering method based on mobile terminal according to claim 4, it is characterized in that, described step S3 specifically comprises step:

S31, when detecting that double touch-control time point interval is greater than default stabilization cycle T, according to computing formula x ₂=x ₁+ k _xv _xt,y ₂=y ₁+ k _yv _yt calculates mobile terminal and moves revised coordinate figure P ₂(x ₂, y ₂);

S32, when detecting that double touch-control time point interval is less than default stabilization cycle T, according to computing formula x ₂'=x ₁+ k _xv _x(t ₂-t ₁), y ₂'=y ₁+ k _yv _y(t ₂-t ₁) calculate mobile terminal and move revised coordinate figure P ₂' (x ₂', y ₂');

S33, the described revised coordinate figure calculated is carried out output display as touch stabilization result.

6., based on a touch-screen stabilization system for mobile terminal, it is characterized in that, comprising:

Velocity amplitude computing module, for direction and the speed of the movement of Real-Time Monitoring mobile terminal, calculates the velocity amplitude V(V of mobile terminal relative to user's movement _x, V _y);

Coordinate figure acquisition module, for when detecting that touching mobile terminal operates, obtains the coordinate figure P of described mobile terminal actual touch point ₁(x ₁, y ₁);

Coordinate figure correcting module, for according to described velocity amplitude V, coordinate figure P _1,and the mobile terminal adjustable parameter value k(k preset _x, k _y), calculate described mobile terminal in a time period t and move revised coordinate figure P ₂(x ₂, y ₂), and by described coordinate figure P ₂output display is carried out as touch stabilization result.

7., according to claim 6 based on the touch-screen stabilization system of mobile terminal, it is characterized in that, described velocity amplitude computing module comprises:

First Speed acquiring unit, for obtaining at the average velocity touching the user's movement occurred in last Preset Time, is labeled as user velocity value V ₀(V _0x, V _0y);

Second speed acquiring unit, for obtaining Instantaneous velocity values when mobile terminal moves, be labeled as Instantaneous velocity values V ' (V ' _x, V ' _y);

Translational speed value computing unit, for according to computing formula V _x=V ' _x-V _0x, V _y=V ' _y-V _0ycalculate the velocity amplitude V(V of mobile terminal relative to user's movement _x, V _y).

8. according to claim 6 based on the touch-screen stabilization system of mobile terminal, it is characterized in that, set corresponding mobile terminal adjustable parameter value k(k according to the screen size of mobile terminal and screen resolution in advance _x, k _y).

9., according to claim 6 based on the touch-screen stabilization system of mobile terminal, it is characterized in that, described time period t is defined as t=Min ((t ₂-t ₁), T), wherein t ₁, t ₂be respectively the double touch-control time point detected, T is default stabilization treatment cycle;

Described coordinate figure correcting module comprises:

First computing unit, for when detecting that double touch-control time point interval is greater than default stabilization cycle T, according to computing formula x ₂=x ₁+ k _xv _xt,y ₂=y ₁+ k _yv _yt calculates mobile terminal and moves revised coordinate figure P ₂(x ₂, y ₂);

Second computing unit, for when detecting that double touch-control time point interval is less than default stabilization cycle T, according to computing formula x ₂'=x ₁+ k _xv _x(t ₂-t ₁), y ₂'=y ₁+ k _yv _y(t ₂-t ₁) calculate mobile terminal and move revised coordinate figure P ₂' (x ₂', y ₂');

Output display unit, for carrying out output display using the described revised coordinate figure calculated as touch stabilization result.

10. a mobile terminal, is characterized in that, comprises the touch-screen stabilization system based on mobile terminal according to any one of claim 6 to 9.