CN103455254A - Method and device for controlling movement of focus on interface - Google Patents

Abstract

The invention relates to a method for controlling movement of a focus on an interface. The method includes recording the initial position and a movement track of a contact; computing the movement distance of the contact; comparing the movement distance to a preset value, and acquiring a track angle of the contact when the distance is larger than or equal to the preset value; acquiring the track direction of the focus according to the track angle; enabling the focus to move by at least one cell in the track direction; setting the current position of the focus as a new initial position. The method for controlling the movement of the focus on the interface has the advantages that the problem that a user cannot easily select elements on an existing interface due to the fact that the elements are excessively small can be solved; an integral procedure can be implemented by means of continuous sliding, and operation is simple and convenient. The invention further provides a device for controlling the movement of the focus on the interface.

Description

Interface focus control method for movement and control device

Technical field

The present invention relates to interface focus and move control technology, relate in particular to a kind of interface focus control method for movement and control device.

Background technology

Interface control on intelligent television or Set Top Box is all that the directionkeys arranged by telepilot or televisor self is controlled Focal Point Shift at present.When yet directionkeys moves many lattice, need to be by many lower or long pressing.In addition, when turning to, for example move to bottom right, need switching button, and, under how needing to press, the user experiences not good.

Remote control applications on intelligent terminal of the prior art can partly address the above problem, and it can directly utilize touch control manner to select corresponding interface element.Yet this mode still has some defects, for example, due to the restriction of intelligent terminal screen size, make for less interface element and be difficult for choosing.

Summary of the invention

In view of this, be necessary to provide a kind of interface focus control method for movement and control device, it can choose interface element easily.

Above-mentioned interface focus control method for movement is achieved through the following technical solutions:

A kind of interface focus control method for movement comprises: the reference position and the motion track that record contact; Obtain the displacement of contact; Relatively this displacement and a predetermined value, when this distance is more than or equal to predetermined value: the track angle of obtaining contact; Obtain the trajectory direction of focus according to the track angle; Make focus mobile at least one lattice on this trajectory direction; And current location is set as to reference position.

Above-mentioned interface focus mobile controller is achieved through the following technical solutions:

A kind of interface focus mobile controller comprises: record cell, for reference position and the motion track that records contact; Metrics calculation unit, for calculating the displacement of contact; Comparing unit, the size for this distance relatively with predetermined value: angle calculation unit, for calculating the track angle of contact; The trajectory direction computing unit, for obtaining the trajectory direction of focus according to the track angle; The Focal Point Shift unit, make focus mobile at least one lattice on this trajectory direction; And reset unit, for current location is set as to reference position.

In above-mentioned interface focus control method and device, by following the trail of the motion track of contact, automated movement focus when contact displacement surpasses or equals predetermined value, select current focus interface element on every side, choose than traditional direct touch-control, can solve the too small problem that is difficult for choosing of interface element.Whole process can realize by lasting slip, easy and simple to handle.

For above and other purpose of the present invention, feature and advantage can be become apparent, preferred embodiment cited below particularly, and coordinate appended graphicly, be described in detail below.

The accompanying drawing explanation

The process flow diagram of the interface focus control method for movement that Fig. 1 provides for the first embodiment.

The interface focus control method for movement schematic diagram that Fig. 2 is the first embodiment.

The process flow diagram of the interface focus control method for movement that Fig. 3 provides for the second embodiment.

The process flow diagram of the interface focus control method for movement that Fig. 4 provides for the 3rd embodiment.

The structured flowchart of the interface focus mobile controller that Fig. 5 provides for the 6th embodiment.

The structured flowchart of the interface focus mobile controller that Fig. 6 provides for the 7th embodiment.

The structured flowchart of the interface focus mobile controller that Fig. 7 provides for the 8th embodiment.

Embodiment

For further setting forth the present invention, be technological means and the effect that the predetermined goal of the invention of realization is taked, below in conjunction with accompanying drawing and preferred embodiment, the interface focus control method for movement that foundation the present invention is proposed and embodiment, structure, feature and the effect thereof of control device, be described in detail as follows.

The process flow diagram of the interface focus control method for movement that Fig. 1 provides for the first embodiment, as shown in Figure 1, this interface focus control method for movement comprises:

Step S110, the reference position that records contact and motion track;

Step S120, obtain the displacement of contact;

Step S130, relatively this displacement and predetermined value:

Step S140, obtain the track angle of contact;

Step S150, obtain the trajectory direction of focus according to the track angle;

Step S160, make focus mobile at least one lattice on this trajectory direction; And

Step S170, current location is set as to reference position.

Particularly, as shown in Figure 2, in step S110, record the coordinate (Xa, Ya) that contact reference position A is ordered, while is along with the track of the moving recording contact of contact, being appreciated that the motion track for contact, can only be the point that records the contact process, when the point of sampling is abundant, the line of each point just meets with actual track.In step S120, suppose the current D of the moving to point in contact (Xd, Yd), between starting point A and current some D, also have two tracing point B, C, its coordinate is respectively (Xb, Yb) and (Xc, Yc).From reference position A to current location D, the displacement D=D of contact _aB+ D _bC+ D _cD, D wherein _aBmean the distance between A point and B point, D _aB=((Xb-Xa) ²+ (Yb-Ya) ²) ^1/2, other distances by that analogy.Can obtain the displacement from the A point to D point point via said process.

In step S130, the displacement of comparison touch points and the size of predetermined value, above-mentioned predetermined value is for example 50 pixels, after contact is moved beyond 50 pixels, carries out the angle judgement, performs step S140.Can adopt starting point A and current location D while obtaining the track angle.As shown in Figure 2, tan θ=(Yd-Ya)/(Xd-Xa), and correspondingly, track angle θ=atan ((Yd-Ya)/(Xd-Xa)).In addition, be appreciated that while obtaining the track angle and be not limited in employing starting point A.For example, can also start to recall along tracing point to the starting point direction until find displacement between this point and current location D to surpass the point of predetermined value from current location D.Predetermined value herein is for example 100 pixels.For example, in 4 points shown in Fig. 2, may start to recall from the D point, determine that the displacement between BD surpasses 100 pixels, determine that the B point is the starting point while obtaining the track angle, angle be θ=atan ((Yd-Yb)/(Xd-Xb)).Be appreciated that, in above lifted example, the interval (50 pixel) of carrying out range estimation suppose that the distance (100 pixel) while to judgement, recalling the searching starting point is little, therefore following situation may appear, even the starting point of dateing back, do not find displacement to surpass the point of 100 pixels yet, now, can directly adopt starting point as the starting point of calculating angle.

In step S150, obtain the trajectory direction of focus according to the track angle, for example, when-45 °<θ<45 °, determine that trajectory direction is for to the right, determine that when 45 °<θ<135 ° trajectory direction is upwards, determine that trajectory direction is for left when θ>135 ° and θ<-135 °, when-135 °<θ<-45 °, determine that trajectory direction is for to the right.According to the scope of above-mentioned angular range, the movement of any direction is converted into in the four direction of upper and lower, left and right.Yet be appreciated that, the scope of above-mentioned angular range is only example, for example, can also be to determine that trajectory direction is for to the right when-30 °<θ<30 °, and determine that trajectory direction is for to the right when 60 °<θ<120 °, and determine that trajectory direction is upper right when 30 °<θ<60 °, focus reaches and moves up to the right simultaneously.Other directions can be by that analogy.

After determining trajectory direction, in step S160, can make at least one lattice of Focal Point Shift.Making at least one lattice of Focal Point Shift is to instigate Focal Point Shift to in a line or same row being at least next interface element.In addition, if current focus is the boundary that is positioned at interface, according to different settings, operated.For example, current focus is positioned at the right margin place at interface, and definite trajectory direction, for to the right, now can not carry out any focus operation, can be first interface element moved in one's own profession, can also be first interface element moved in next line.The border of other directions can be by that analogy.

The movement of focus can be accomplished in several ways.For example, the focus interface element can be around it display bezel to make a distinction with other interface elements, now, this frame can gradual movement to next interface element.The focus interface element can also be the background and the differentiation of other interface elements that adopts gradual change, now, and can be to the processing of being faded out of current focus interface element background, and the background of the next interface element of asymptotic demonstration.The movement that is appreciated that focus is not limited to above two kinds of exemplified modes, and the technology of moving focal point all can be applicable in the present embodiment arbitrarily.

In step S170, after the movement that completes focus, current location can be redefined as starting point, re-start the process of step S120 to step S160.So, continue moving focal point under the situation that can not unclamp in contact.

In above-mentioned interface focus control method, by following the trail of the motion track of contact, automated movement focus when contact displacement surpasses or equals predetermined value, select current focus interface element on every side, choose than traditional direct touch-control, can solve the too small problem that is difficult for choosing of interface element.Whole process can realize by lasting slip, easy and simple to handle.

Consult Fig. 3, the second embodiment provides a kind of interface focus control method for movement, and its Focal Point Shift control method to the first embodiment is similar, and difference is, further comprises:

Whether the trajectory direction obtained in step S210, comparison step S150 is identical with the last mobile direction of this focus; And

Step S220, when trajectory direction is identical with the last direction moved of focus, the movement of focusing is accelerated to process.

Be appreciated that in order to carry out step S210, need each moving focal point also its moving direction of respective record for follow-up comparison.While being appreciated that each moving focal point, trajectory direction is its moving direction.In step S220, trajectory direction is identical with the last mobile direction of focus illustrates that focus need to continue to move on same direction.Accelerating to process is for example to instigate the several increments of the lattice that give Focal Point Shift.For example, on certain direction, focus only moves lattice for the first time, and, for the second time except moving one especially, also has an increment, when this increment is 1, moves for the second time two lattice.This increment for example can be 0.5*N, wherein the number of times of N for moving up in Tongfang.By upper formula, need mobile 1+0.5*2=2 lattice while moving for the second time, need mobile 1+0.5*3=2.5 lattice while moving for the third time.For fraction part, can round downwards or round up and be processed.When adopting while rounding mode downwards, need to move 2 lattice while moving for the third time, and while adopting the mode of rounding up to be processed, mobilely for the third time need mobile 3 lattice.From the above, the number of times moved on same direction continuously when focus is more, and its current translational speed is faster.

In the interface focus control method for movement of the present embodiment, by continuous, equidirectionally increment being set when mobile, realized that equidirectional lasting acceleration when mobile processes, made the convenient more situation of processing interface element of user.

Consult Fig. 4, the 3rd embodiment provides a kind of interface focus control method for movement, its Focal Point Shift control method to the first embodiment is similar, difference is, further comprise step S310: obtain the translational speed of contact, when its translational speed is greater than predetermined value when unclamp contact, make focus continue mobile at least one lattice on this moving direction.

Be appreciated that in writing time track while of recording contact, according to displacement and time, can obtain the translational speed of contact.In the interface focus control method of the first embodiment, contact stops obtaining the displacement of contact after unclamping, and focus no longer moves.And, in the present embodiment, if speed when unclamp contact is greater than predetermined value, focus continues mobile lattice or many lattice, make the certain inertia of mobile preservation of focus, allow the user can adopt shorter slip to realize that many lattice of focus move.

The 4th embodiment provides a kind of control method for movement of interface focus, and its interface focus control method for movement to the first embodiment is similar, and difference is, consults Fig. 5, and step S160 specifically comprises:

Step S161, be sent on this moving direction the instruction of mobile at least one lattice to controlled terminal; And step S162, this controlled terminal are by focus mobile at least one lattice on this moving direction.

Controlled terminal is for example digital television, digital TV set-top box or PC.The method of the present embodiment can be carried out by telepilot, and telepilot for example is connected with controlled terminal by WLAN (wireless local area network), and according to the agreement pre-defined, telepilot can be sent to controlled terminal by different instructions, after being resolved by controlled terminal, carries out.

In the present embodiment, the interface of control is not the interface of the machine, but is arranged in the interface of the controlled terminal of far-end.After the instruction that controlled terminal receives, get final product the lattice number that corresponding control focus makes its mobile appointment on this trajectory direction.

The control method for movement of the interface focus of the present embodiment can further be applied to, in the remote control applications of intelligent terminal, to have adaptability more widely.

The 5th embodiment provides a kind of control method for movement of interface focus, its interface focus control method for movement to the first embodiment is similar, difference is, angular range when trajectory direction is obtained in the corresponding adjustment of number of times that also comprises the movement on each direction according to focus, make the mobile number of times of focus on certain direction more, the angular range that belongs to this trajectory direction is larger.

For example, through overwriting, what find the frequent use of user is the slip of left and right directions, and seldom with the slip of above-below direction, choose interface element, now, can tune up the angular range of the slip that belongs to left and right directions, for example, when-50 °<θ<50 °, all determine that the trajectory direction of contact is for to the right.Than-45 °<θ<45 ° in the first embodiment, it has larger scope.After setting like this, the user can complete operation to the right more easily.

The 6th embodiment provides a kind of mobile controller of interface focus, consult Fig. 5, it comprises: record cell 610, metrics calculation unit 620, comparing unit 630, angle calculation unit 640, moving direction computing unit 650, Focal Point Shift unit 660 and reset unit 670.Wherein:

Reference position and the motion track of record cell 610 for recording contact; Distance acquiring unit 620 is for obtaining the displacement of contact; Comparing unit 630 is the size with predetermined value for this distance relatively; Angle acquiring unit 640 is for obtaining the angle from this reference position to this current location; Moving direction acquiring unit 650 obtains trajectory direction for the track angle of obtaining according to the angle acquiring unit; Focal Point Shift unit 660 makes focus mobile at least one lattice on this trajectory direction; Reset unit 670 for current location is set as to reference position.

About the further running details of each unit, can further consult the control method for movement of the interface focus of the first embodiment.

In the mobile controller of the interface focus of the present embodiment, by following the trail of the motion track of contact, automated movement focus when contact displacement surpasses or equals predetermined value, select current focus interface element on every side, choose than traditional direct touch-control, can solve the too small problem that is difficult for choosing of interface element.Whole process can realize by lasting slip, easy and simple to handle.

The 7th embodiment provides a kind of mobile controller of interface focus, consults Fig. 6, and its mobile controller to the interface focus of the 6th embodiment is similar, and difference is, further comprises moving direction record cell 710 and accelerates processing unit 720.Wherein, moving direction record cell 710 is for recording the moving direction of focus when the each Focal Point Shift of focus; Accelerating processing unit 720 accelerates to process for the movement of focusing when trajectory direction is identical with the last direction moved of focus.And concrete acceleration processing procedure can be consulted the control method for movement of the interface focus of the second embodiment, do not repeat them here.

In the interface focus mobile controller of the present embodiment, by continuous, equidirectionally increment being set when mobile, realized that equidirectional lasting acceleration when mobile processes, made the convenient more situation of processing interface element of user.

The 8th embodiment provides a kind of mobile controller of interface focus, consult Fig. 7, its mobile controller to the interface focus of the 6th embodiment is similar, difference is, further comprise translational speed acquiring unit 810, for obtaining the translational speed of contact, Focal Point Shift unit 660 also makes focus continue at least one lattice of movement on this moving direction when its translational speed is greater than predetermined value when unclamp contact.

Be appreciated that in writing time track while of recording contact, according to displacement and time, can obtain the translational speed of contact.In the interface focus control device of the 6th embodiment, contact stops obtaining the displacement of contact after unclamping, and focus no longer moves.And, in the present embodiment, if speed when unclamp contact is greater than predetermined value, focus continues mobile lattice or many lattice, make the certain inertia of mobile preservation of focus, allow the user can adopt shorter slip to realize that many lattice of focus move.

The 9th embodiment provides a kind of mobile controller of interface focus, its mobile controller to the interface focus of the 6th embodiment is similar, difference is, Focal Point Shift unit 660 comprises transmitting element, for be sent in the instruction of mobile at least one lattice on this trajectory direction to controlled terminal.After the instruction that controlled terminal receives, get final product the lattice number that corresponding control focus makes its mobile appointment on this trajectory direction.

The mobile controller of the interface focus of the present embodiment can further be applied to, in the remote control applications of intelligent terminal, to have adaptability more widely.

The tenth embodiment provides a kind of mobile controller of interface focus, its mobile controller to the interface focus of the 6th embodiment is similar, difference is, also comprise angle adjusting, angular range while for the corresponding adjustment of number of times of the movement on each direction according to focus, obtaining trajectory direction, make the mobile number of times of focus on certain direction more, the angular range that belongs to this moving direction is larger.

For example, through overwriting, what find the frequent use of user is the slip of left and right directions, and seldom with the slip of above-below direction, choose interface element, now, can tune up the angular range of the slip that belongs to left and right directions, for example, when-50 °<θ<50 °, all determine that the trajectory direction of contact is for to the right.Than-45 °<θ<45 ° in the first embodiment, it has larger scope.After setting like this, the user can complete operation to the right more easily.

In addition, the embodiment of the present invention also provides a kind of computer-readable recording medium, is stored with computer executable instructions, and above-mentioned computer-readable recording medium is for example for example CD, hard disk or flash memory of nonvolatile memory.

This computer executable instructions specifically comprises: for the reference position that records contact and the instruction of motion track; For obtaining the instruction of displacement of contact; For relatively this displacement and a predetermined value instruction, for when this distance is more than or equal to predetermined value: the track angle of obtaining contact; Determine the trajectory direction of focus according to the track angle; Make focus mobile at least one lattice on this trajectory direction; And the instruction that current location is set as to reference position.

Further, this computer executable instructions also comprises: for the last mobile moving direction of this focus of relatively this motion track direction and last time; If the instruction of processing is accelerated in the movement of focusing when the direction of the current motion track direction of this focus and the movement of this focus last time is identical.In addition, the number of times that focus moves continuously on same direction is more, and its current translational speed is faster.

Further, this computer executable instructions also comprises: for obtaining the translational speed of calculating contact, when its translational speed is greater than predetermined value when unclamp contact, make focus continue the instruction of mobile at least one lattice on this moving direction.

Further, this specifically comprises the instruction of focus mobile at least one lattice on this trajectory direction: for be sent in the instruction of mobile at least one lattice on this trajectory direction to controlled terminal; In this controlled terminal, store for the instruction by focus mobile at least one lattice on this trajectory direction.

Further, this computer executable instructions also comprises: the angular range while for the corresponding adjustment of number of times of the movement on each direction according to focus, determining trajectory direction, make the mobile number of times of focus on certain direction more, belong to the larger instruction of angular range of this moving direction.

About other technologies details and the correlation technique effect of above calculating executable instruction, also can further consult Fig. 1 to Fig. 4 and associated description.

The above, it is only preferred embodiment of the present invention, not the present invention is done to any pro forma restriction, although the present invention discloses as above with preferred embodiment, yet not in order to limit the present invention, any those skilled in the art, within not breaking away from the technical solution of the present invention scope, when the technology contents that can utilize above-mentioned announcement is made a little change or is modified to the equivalent embodiment of equivalent variations, in every case be not break away from the technical solution of the present invention content, any brief introduction of above embodiment being done according to technical spirit of the present invention is revised, equivalent variations and modification, all still belong in the scope of technical solution of the present invention.

Claims (12)

1. an interface focus control method for movement comprises:

Record reference position and the motion track of contact;

Obtain the displacement of contact;

Relatively this displacement and a predetermined value, when this distance is more than or equal to predetermined value:

Obtain the track angle of contact;

Determine the trajectory direction of focus according to the track angle;

Make focus mobile at least one lattice on this trajectory direction; And

Current location is set as to reference position.

2. interface focus control method for movement as claimed in claim 1, is characterized in that, also comprises:

The last mobile direction of this trajectory direction and this focus relatively;

If when this trajectory direction is identical with the last direction moved of this focus, the movement of focusing is accelerated to process.

3. interface focus control method for movement as claimed in claim 2, is characterized in that, the number of times that focus moves continuously on same direction is more, and its current translational speed is faster.

4. interface focus control method for movement as claimed in claim 1, is characterized in that, also comprises the translational speed of obtaining contact, when its translational speed is greater than predetermined value when unclamp contact, makes focus continue mobile at least one lattice on this trajectory direction.

5. interface focus control method for movement as claimed in claim 1, is characterized in that, focus mobile at least one lattice on this trajectory direction are comprised:

Be sent in the instruction of mobile at least one lattice on this trajectory direction to controlled terminal;

This controlled terminal is by focus mobile at least one lattice on this trajectory direction.

6. interface focus control method for movement as claimed in claim 1, it is characterized in that, angular range when trajectory direction is obtained in the corresponding adjustment of number of times that also comprises the movement on each direction according to focus, make the mobile number of times of focus on certain direction more, the angular range that belongs to this trajectory direction is larger.

7. an interface focus mobile controller comprises:

Record cell, for reference position and the motion track that records contact;

Metrics calculation unit, for calculating the displacement of contact;

Comparing unit, the size for this distance relatively with predetermined value:

Angle calculation unit, for calculating the track angle of contact;

The trajectory direction acquiring unit, for obtaining the trajectory direction of focus according to the track angle;

The Focal Point Shift unit, make focus mobile at least one lattice on this trajectory direction; And

Reset unit, for current location is set as to reference position.

8. interface focus mobile controller as claimed in claim 7, is characterized in that, also comprises:

The moving direction record cell, for record the moving direction of this focus at every turn when this focus moves;

Accelerate processing unit, accelerate to process for the movement of focusing when this trajectory direction is identical with the last direction moved of this focus.

9. interface focus mobile controller as claimed in claim 8, is characterized in that, the number of times that focus moves continuously on same direction is more, and its current translational speed is faster.

10. interface focus mobile controller as claimed in claim 7, it is characterized in that, also comprise the translational speed acquiring unit, for obtaining the translational speed of contact, this Focal Point Shift unit also makes focus continue at least one lattice of movement on this trajectory direction when its translational speed is greater than predetermined value when unclamp contact.

11. interface focus mobile controller as claimed in claim 7, is characterized in that, this Focal Point Shift unit comprises transmitting element, for be sent in the instruction of mobile at least one lattice on this trajectory direction to controlled terminal.

12. interface focus mobile controller as claimed in claim 7, it is characterized in that, also comprise angle adjusting, angular range while for the corresponding adjustment of number of times of the movement on each direction according to focus, determining trajectory direction, make the mobile number of times of focus on certain direction more, the angular range that belongs to this trajectory direction is larger.

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