CN101819498A - Screen display-controlling method facing to slide body of touch screen - Google Patents

Abstract

The invention discloses a screen display-controlling method facing to a slide body of a touch screen, which comprises the following steps of: (1) setting a coordinate system on a touch screen; (2) detecting the sliding action of a user on the touch screen with the coordinate system, and recoding parameters correlative to the sliding action; and (3) controlling the moving direction, speed and displacement of the slide body displayed on the screen according to the parameters, wherein the motion of the slide body is an inertial motion which consists of a positive acceleration stage and a negative acceleration stage. The method can control the display status of the slide body in the screen according to the sliding operation of the user on the slide body of the touch screen, reflects the factors such as the moving direction, speed, acceleration and the like of the slide body, and leads the user to obtain the visual effect which is close to the motion of objects in the real world.

Description

Control method for screen display towards the touch-screen slide mass

Technical field

The present invention relates to a kind of control method for screen display towards the touch-screen slide mass, relate in particular to a kind of show state according to slide mass in the slide control screen of user on the touch-screen slide mass, make it reflect factors such as slide mass travel direction, speed, acceleration, allow the user obtain display control method, belong to the moving image processing technology field near the visual effect of real world objects motion.

Background technology

In the current information age, mobile phone is portable and smart with it, can both realize that the distinct advantages of conversing more and more is subjected to liking of people, has become the necessity of popular daily life whenever and wherever possible.According to the statistics of appropriate authority, the mobile phone user of China has surpassed 600,000,000 at present.In order to fight for huge Mobile Phone Market, each big mobile phone manufacturer is all greatly developing the mobile phone operating system of oneself, with the reply fierce competitive market.

Along with different vendor dwindles day by day in product quality and technical difference, the homogeneity warfare of mobile phone becomes more and more serious.Be absorbed in the homogeneity competition for fear of the mobile phone of self producing, each show his special prowess releasing at the segmenting market aspect the differentiation product in all big enterprises.Wherein, the iPhone that Apple releases promptly starts huge great waves once release on market, extensively be subjected to pursuing of people.Trace it to its cause, exactly because the user interface of iPhone is done very magnificently, the multi-point touch technology that is adopted can allow the user utilize finger control screen object easily, has very good user interaction.Therefore, it is widely acknowledged the whether outstanding success or failure that often determine a mobile phone of user interface, its effect is better than the function of mobile phone self especially.

At present, have several money mobile phones to adopt touch slider bar (abbreviation slider bar) on the market, but the display effect on the screen is not very desirable.The slider bar that for example has is fixed, and but the user can click top icon can not slide; The slider bar that has can be supported to slide, but the lattice that just slide simply to the left or to the right; Though the slider bar that has can slide, sliding effect is bad, motion state that can not the real simulation real-world object, such as, sliding very soon originally, but pointed firm frameing out, slider bar is just static at once to get off.This very stiff screen display effect is difficult to satisfy user's action need.

At application number is in the Chinese invention patent application " a kind of interaction control method and system based on touch-screen " of 200810068025.X, a kind of interaction control method and system based on touch-screen is provided, and described method comprises the steps: senses touch the screen upward distance and the direction of user's slip; Determine the operation that current application is carried out and/or carry out the execution speed of this operation according to detected distance and direction; Current application is carried out the operation of determining, perhaps current application is carried out the operation of determining with the operation execution speed of determining.But this method is just according to the input of the sliding distance of user on touch-screen as sampling, and is irrelevant with the speed that the user slides on touch-screen, and there is certain limitation in therefore mutual effect.

In addition, at application number is in the Chinese invention patent application " based on the rotary type continuously speed changing browsing and the search method of touch-screen " of 200710150554.X, when the user draws a circle continuously with rotation mode on touch-screen, carry out the calculating of sliding speed and the judgement of glide direction by the sampled point on the collection touch reading device touch-screen, with glide direction object elements is shown with different surfings and both forward and reverse directions continuous rolling on display screen according to sliding speed.This method is carried out the calculating of sliding speed and the judgement of glide direction by the sampled point on the continuous acquisition touch-screen, but does not consider to calculate the acceleration of motion in view of the above, thereby also fails to realize the acceleration and deceleration user interface of inertia motion.

Summary of the invention

Technical matters to be solved by this invention is to provide a kind of control method for screen display towards the touch-screen slide mass.This method has been considered sliding speed and the acceleration that the user operates on the touch-screen slide mass, and has calculated corresponding inertial parameter in view of the above, makes the user obtain good operating experience.

For realizing above-mentioned goal of the invention, the present invention adopts following technical scheme:

A kind of control method for screen display towards the touch-screen slide mass is characterized in that comprising following step:

(1) on touch-screen, sets coordinate system;

(2) utilize described coordinate system to detect the sliding action of user on touch-screen, the parameter that record is associated with described sliding action;

(3), be controlled at direction of motion, speed and the displacement of the slide mass that shows on the screen, the inertia motion that the motion of described slide mass is served as reasons and become boost phase and become the decelerating phase composition according to described parameter.

Wherein, described slide mass is touch slider bar or object content, and described object content is any one in picture, icon, the literal.

In the described step (2), described parameter comprises the position of user's drop point, the position of user's starting point and the time interval between user's drop point and the starting point.

The described time interval is only just looked the user in effective time in the scope sliding action is a normal event that can effectively excite the slide mass motion.

In the described step (3), represent described change boost phase and the time dependent rule of displacement in the change decelerating phase respectively with two section 1/4 circular curve, wherein the horizontal ordinate of circular curve is the time, and ordinate is displacement, and tangent slope is represented acceleration.

Control method for screen display towards the touch-screen slide mass provided by the present invention can be according to the show state of slide mass in the slide control screen of user on the touch-screen slide mass, make it reflect factors such as slide mass travel direction, speed, acceleration, allow the user obtain the visual effect of moving near real world objects.

Description of drawings

The present invention is further illustrated below in conjunction with the drawings and specific embodiments.

Fig. 1 is this schematic flow sheet towards the control method for screen display of touch-screen slide mass;

Fig. 2 is becoming boost phase slide displacement curve over time;

Fig. 3 is becoming decelerating phase slide displacement curve over time.

Embodiment

Before address, had some mobile phones to adopt touch slider bar now, but the screen display effect of this slider bar is not very desirable.In order to improve the display effect of this touch slider bar, the present invention at first calculates the parameter of slider bar inertia motion according to the slide of user on touch-screen, thereby with the Motion mapping of slider bar certain object of which movement in the real world, and then the mathematic curve of abstract this physical motion rule of searching energy, allow the slider bar that shows on the screen close to tie up to and dynamically change own position on the display screen, thereby make the user obtain the visual effect of moving near real world objects according to represented time one screen position of this mathematic curve.

Based on above-mentioned thinking, at first arrange touch slider bar in a side (being preferably the screen below) of touch-screen, on touch-screen, set coordinate system then, object content that demonstration is associated with this slider bar on display screen such as picture (icon), literal, hyperlink etc.For the situation that touch-screen and display screen are integrated, above-mentioned coordinate system and object content can be overlapping up and down.

Need to prove, the present invention also can expanded application in picture browsing, promptly support to slide to the left or to the right to browse many pictures of arranging according to the order of sequence etc. with hand.In this case, what slided can be not only slider bar, also can be other for example object contents such as picture (icon), literal, hyperlink.For the convenience on explaining, the unified hereinafter slide mass that is called.

Slide mass control method for screen display provided by the present invention mainly comprises the work of two aspects, and wherein first aspect is judgement and catches the sliding action of user on touch-screen.Have only the sliding action of user on touch-screen followed the tracks of fast and accurately, just can make the slide mass that shows on the display screen accurately reflect user's operation intention, make the user obtain good operating experience.Second aspect is to calculate the parameter of slide mass inertia motion, seek the mathematic curve of the abstract inertia motion rule of energy, thereby make slide mass on display screen, simulate the sensation of the object of which movement in the real world, bring the visual effect of moving to the user near real world objects.

Referring to shown in Figure 1, at first introduce and how to judge and catch the sliding action of user on touch-screen.In order to catch the sliding action of user on touch-screen, need utilize the coordinate system record following parameter of setting on the touch-screen relevant, comprising: the position of user's drop point, the position when being used for recording user and pressing in the slide mass zone with user's sliding action; The position of user's starting point, the position when being used for recording user and after a segment distance is slided in slide mass zone, leaving; Reaction time, the i.e. time interval between user's drop point and the starting point.The reaction time that the user slides must just be looked this user's sliding action in the preset time interval be a normal event that can effectively excite the slide mass inertia motion.After the reaction time of having detected user's slide, speed, the direction that can calculate user's sliding action according to the position of starting point, drop point and reaction time just.These parameters will be as the important parameter of slide mass inertia motion.

The sliding action of user on screen can be horizontal direction, also can be vertical direction, and both processing modes are identical.We are that example is illustrated with the slip of horizontal direction.Determine the inertia motion of slide mass, calculative parameter comprises displacement, time, direction etc.The horizontal ordinate of drop point of supposing user's finger contact screen is that x1, time are t1, lifts after sliding a period of time, and the horizontal ordinate of starting point is that x2, time are t2.The speed v of Hua Donging can be calculated by following formula (1) so:

v＝(x2-x1)/(t2-t1)???????????????????????(1)

Can determine the displacement and the time of slide mass inertia motion by sliding speed v.Can determine by x1, x2 as for the direction of sliding motion, when x2＞x1 to the right, when x2＜x1 left.Table 1 is the mapping table of user's sliding action and inertia motion parameter, has wherein provided the reference corresponding relation of sliding speed and seismically-induced sliding movement, time.Concrete parameter value in the table is an example, can adjust according to the needs of application scenarios in actual applications.

Sliding speed v (unit: screen pixels point/second)	Displacement (unit: the length of content elementary cell)	Time (unit: second)
			??v＜＝600	?0	??0
??600＜v＜＝800	?1	??0.5

Sliding speed v (unit: screen pixels point/second)	Displacement (unit: the length of content elementary cell)	Time (unit: second)
			??800＜v＜＝1000	?2	??0.6
??1000＜v＜＝1200	?3	??0.7
			??v＞1200	??4	??0.8

Table 1

The once effective slide of user on screen is free restriction, and this time is the reaction time.Have only the reaction time in the effective time scope (according to the feature of human eye, comparatively desirable operating experience is arranged) effective time about 2 seconds, just can excite inertia motion, drag effect and handle (drag effect be meant slide mass follow the instant slip of finger) otherwise be used as.

Below, further introduce the implementation procedure that makes slide mass object inertia motion in the simulate real world on display screen.Inertia motion among the present invention is meant the motion of object in the motion mimics nature world of slide mass, comprises accelerations, decelerations, follows the initial speed of moving, acceleration and the process of slowing down and stopping owing to air or various resistance.

The inventor thinks that through research the motion of slide mass is subjected to pointing the influence of acting force, in previous stage, and the process that has the change in the short period to quicken; In the latter half, be subjected to the influence of resistance, the change moderating process in the long period is arranged.This phenomenon can analogy the right and left connecting the motion of the spring oscillator of different damping coefficient.Both in motion process, all experience one section in the short period variable accelerated motion and the change retarded motion process in one period long period.This change is quickened to become in the retarded motion process, and the Changing Pattern of acceleration has identical rule with the variation of the tangent slope of the curve of circle, can be time t in order to horizontal ordinate therefore, and ordinate is that the curve of the circle of displacement s is represented this characteristics of motion.

Based on above-mentioned understanding, the present invention adopts Fig. 2 and two section 1/4 circular curve shown in Figure 3 to be illustrated respectively in and quickens and decelerating phase displacement and time relation, and wherein the tangent slope of circular curve is represented acceleration.In Fig. 2, tangent slope changes to maximum gradually by zero, has reflected that acceleration is by zero progressive formation to maximum; In Fig. 3, tangent slope changes to zero gradually by maximum, has reflected that acceleration is by the progressive formation that is up to zero.

In concrete processing procedure, at first according to determining slide mass travel direction, time, distance to catching of user's sliding action.Inertia motion with slide mass will be divided into two stages then, become boost phase and become the decelerating phase.Becoming boost phase, the motion of slide mass will be followed time shifting relation curve shown in Figure 2, and speed is increased to maximal value gradually by zero; Becoming the decelerating phase, motion will be followed time shifting relation curve shown in Figure 3, and speed is kept to zero gradually by maximal value.At the volley, slide mass can slide according to the kinetics equation of following definitions with the finger traffic direction, if but arriving the final border (opening last of picture in one line) of all object contents as N, then can finally stop.Because the cause of inertia, slide mass at the volley may screen away from keyboard left sides or right hand edge and with the inertia segment distance that slides, the dynamic effect that imitates spring damping then is drawn back in the screen and finally stops.

The T.T. of supposing the slide mass inertia motion is T, and total displacement is S, distributes to N/one of the time of change boost phase into T.T. T, and the displacement of generation is M/one of total displacement S, and all the other are distributed to and become the decelerating phase.Relation between N, the M need satisfy this condition of speed that the speed that becomes the boost phase terminal point equals to become the deceleration starting point, and it is right to select the best value of one group of movement vision effect in actual computation.

Becoming boost phase, the relation of seismically-induced sliding movement s and time t can be provided by following formula (2):

$s=(1-\sqrt{1-{(t\×N/T)}^2})\×S/M,$ T ∈ [0, T/N] (2) wherein

Becoming the decelerating phase, the relation of seismically-induced sliding movement s and time t can be provided by following formula (3):

$s=\sqrt{1-{(\mathrm{tN}/(N-1)T-1)}^2}\×(M-1)S/M,t\∈[0,(N-1)T/N]---\left(3\right)$

In the process of practical operation,, after calculating the displacement of inertia motion, time and direction parameter, start timer referring to shown in Figure 1.After arriving timer preset time interval, according to current location, the direction of mathematic curve equation (for example above-mentioned formula 1～3) calculating slide mass, upgrade screen coordinate then, draw again.After the inertia motion of slide mass arrives the schedule time, finish inertia motion.If the no show schedule time, then continue the waiting timer preset time and arrive at interval.

The present invention is by detecting distance and the direction that the user slides, the relevant function of presetting in the sustainable execution mobile phone on touch-screen.For example on slide mass, can place the quick startup icon of application program, can slide to the left or to the right and browse these icons, bring convenience to the user so that click operation fast.This slide mass can the perception user the finger sliding action and do corresponding inertia motion, the user is sliding left, slide mass is just sliding left; The user is sliding to the right, and slide mass is just sliding to the right; And particularly crucial be its speed of can the perception user sliding with acceleration, user's hand is sliding soon, slide mass is just sliding soon, sliding distance is just far away; Slide mass has experienced a process that is accelerated to the change deceleration by change in the inertia sliding process, promptly progressively stop as the resistance that in actual scene, runs into air or ground along with the user points to slide fast then at the beginning, rather than user's hand stops once unclamping at once.Can bring good operating experience to the user like this.

Introduced the control method for screen display towards the touch-screen slide mass provided by the present invention above.For one of ordinary skill in the art, any conspicuous change of under the prerequisite that does not deviate from connotation of the present invention it being done all will constitute to infringement of patent right of the present invention, with corresponding legal responsibilities.

Claims (8)

1. control method for screen display towards the touch-screen slide mass is characterized in that comprising following step:

(1) on touch-screen, sets coordinate system;

(2) utilize described coordinate system to detect the sliding action of user on touch-screen, the parameter that record is associated with described sliding action;

(3), be controlled at direction of motion, speed and the displacement of the slide mass that shows on the screen, the inertia motion that the motion of described slide mass is served as reasons and become boost phase and become the decelerating phase composition according to described parameter.

2. the control method for screen display towards the touch-screen slide mass as claimed in claim 1 is characterized in that:

Described slide mass is touch slider bar or object content.

3. the control method for screen display towards the touch-screen slide mass as claimed in claim 2 is characterized in that:

Described object content is any one in picture, icon, the literal.

4. the control method for screen display towards the touch-screen slide mass as claimed in claim 1 is characterized in that:

In the described step (2), described parameter comprises the position of user's drop point, the position of user's starting point and the time interval between user's drop point and the starting point.

5. the control method for screen display towards the touch-screen slide mass as claimed in claim 4 is characterized in that:

The described time interval is only just looked the user in effective time in the scope sliding action is a normal event that can effectively excite the slide mass motion.

6. the control method for screen display towards the touch-screen slide mass as claimed in claim 5 is characterized in that:

Described effective time, scope was 2 seconds.

7. the control method for screen display towards the touch-screen slide mass as claimed in claim 1 is characterized in that:

In the described step (3), represent described change boost phase and the time dependent rule of displacement in the change decelerating phase respectively with two section 1/4 circular curve.

8. the control method for screen display towards the touch-screen slide mass as claimed in claim 7 is characterized in that:

In the described circular curve, horizontal ordinate is the time, and ordinate is displacement, and tangent slope is represented acceleration.

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