CN104714749A - Single-hand touch control method and device - Google Patents

Abstract

The embodiment of the invention discloses a single-hand touch control method and device. The method comprises the steps of detecting and acquiring a first movement track of a finger of a user in an area within the preset range on a touch screen of a terminal, and controlling the terminal to be switched to the single-hand touch control mode according to the first movement track. By the adoption of the single-hand touch control method and device, single-handle touch control is more intelligent, easier and more convenient.

Description

Singlehanded touch screen implementation method and device

Technical field

The embodiment of the present invention relates to mobile terminal technology, particularly relates to a kind of singlehanded touch screen implementation method and device.

Background technology

Along with the development of science and technology, the screen of mobile terminal is increasing, and people have to the hands carry out operating mobile terminal simultaneously.Such as, but there will be unavoidably in daily life and want a hand-held mobile terminal, another hand does the situation of other thing, and user is when doing subway, a hand steered iron pull bar that lands, can only with another hand-held mobile terminal.Now, if the hand of user is fixed on the below of mobile terminal screen, when needing the application above touch screen, then become very difficult.

At present, many manufacturers are also proposed the prioritization scheme for giant-screen mobile terminal one-handed performance all one after another, such as, mobile terminal bottom button is double-clicked, makes application interface content focus on the bottom of mobile terminal screen, or in mobile terminal screen clicking trigger region, make application interface scaled down, or use finger drop-down application interface on mobile terminal screen, make the content on application interface top move to bottom, etc.

But above one-handed performance compares mechanization, be not easy operation.

Summary of the invention

In view of this, the embodiment of the present invention provides a kind of singlehanded touch screen implementation method and device, to optimize existing singlehanded contact action scheme in mobile terminal, makes singlehanded contact action more intelligent.

In first aspect, embodiments provide a kind of singlehanded touch screen implementation method, comprising:

Detect the first movement locus obtaining the preset bounds overlying regions movement on terminal touch screen of user's finger;

Controlling described terminal switch according to described first movement locus is singlehanded touch screen pattern.

In second aspect, embodiments provide a kind of singlehanded touch screen implement device, comprising:

First track acquisition module, for detecting the first movement locus obtaining the preset bounds overlying regions movement on terminal touch screen of user's finger;

Pattern switches control module, is singlehanded touch screen pattern for controlling described terminal switch according to described first movement locus.

The embodiment of the present invention points the movement tendency of the movement that suspends above terminal touch screen by obtaining user, as controlling the condition that described terminal switch is singlehanded touch screen pattern, accurately, automatically can identify the operation intention of user, and make extra pattern switching instruction without the need to user.So the embodiment of the present invention makes singlehanded contact action more intelligent, and singlehanded contact action process is more simple and convenient.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of a kind of singlehanded touch screen implementation method that first embodiment of the invention provides;

Fig. 2 a is the schematic flow sheet of a kind of singlehanded touch screen implementation method that second embodiment of the invention provides;

Fig. 2 b is the interface schematic diagram of the interface zone boundary line of presetting in a kind of singlehanded touch screen implementation method that second embodiment of the invention provides;

Fig. 2 c is the interface schematic diagram of the singlehanded touch screen pattern sub-screen display in a kind of singlehanded touch screen implementation method that second embodiment of the invention provides;

Fig. 3 is the schematic flow sheet of a kind of singlehanded touch screen implementation method that third embodiment of the invention provides;

Fig. 4 is the structural representation of a kind of singlehanded touch screen implement device that fourth embodiment of the invention provides.

Embodiment

In order to make the object, technical solutions and advantages of the present invention clearly, below in conjunction with accompanying drawing, the specific embodiment of the invention is described in further detail.Be understandable that, specific embodiment described herein is only for explaining the present invention, but not limitation of the invention.It also should be noted that, for convenience of description, illustrate only part related to the present invention in accompanying drawing but not full content.

First embodiment

Fig. 1 is the schematic flow sheet of a kind of singlehanded touch screen implementation method that first embodiment of the invention provides, the method of the present embodiment can be performed by the singlehanded touch screen implement device configured in terminal, this device realizes by the mode of hardware and/or software, does not limit this.As shown in Figure 1, the method for the present embodiment specifically comprises the steps:

Step 11, detection obtain the first movement locus of user's finger preset bounds overlying regions movement on terminal touch screen;

Wherein, preset bounds region is one piece of region in touch-screen, can be arranged by User Defined, such as, can be a rectangular area in touch-screen, or the upper left corner area of touch-screen, upper half plane touch screen zone etc.Wherein, terminal can be mobile terminal, such as smart mobile phone, panel computer etc.

Above-mentioned steps detects and obtains the movement locus that user points side's movement on the touchscreen, and namely user's finger is suspended in certain distance above touch-screen, but does not touch the movement locus under touch-screen state.

Concrete, in the prior art, general meeting covers one deck electrode voltage and electric capacity on the screen of mobile terminal (such as mobile phone) touch screen, when the finger of user near touch screen time, the electric capacity being positioned at finger below can change, and is positioned at the more farther electric capacity in finger below because do not have the electric conductor of similar finger, so can not change, based on above-mentioned principle of work, the movement locus of the finger movement on terminal touch screen be suspended in above screen just can be detected.

Can arrange the threshold value of distance, when pointing and touch-screen is close to setpoint distance, confirmation can recognize this movement locus.First movement locus is the movement locus that user points movement after entering preset bounds region.

Step 12, to control described terminal switch according to described first movement locus be singlehanded touch screen pattern.

Concrete, because user is provided with boundary region in advance on terminal touch screen, when detecting that user points when the movement locus of the preset bounds overlying regions movement of terminal touch screen, then can control described terminal according to the first movement locus and automatically switch to singlehanded touch screen pattern, such as set tracking condition, when the first movement locus meets this setting tracking condition, namely trigger mode switches.

The present embodiment is by arranging preset bounds region on a terminal screen, according to the movement locus detecting the user's finger preset bounds overlying regions movement on terminal touch screen obtained, control described terminal and automatically switch to singlehanded touch screen pattern, accurately, automatically can identify the operation intention of user, and no longer need user to start singlehanded touch screen pattern by certain button in touching terminal or terminal, make singlehanded contact action more intelligent, greatly facilitate user operation, meet user's request.

Preset bounds region can be arranged by user at any time, and preferably on the basis of above-described embodiment, said method also comprises:

Boundary region according to user arranges request, detects the second movement locus obtaining the movement on described touch-screen of user's finger;

Described second movement locus is set to the border of described boundary region.

Concrete, before having user the demand switching one-handed performance (when such as doing subway user, a hand steered iron pull bar that lands, another hand-held under the scene of mobile terminal), user can pre-set a virtual boundary in terminal, it can be used as the border of boundary region.Such as, user can finger can free and relaxed control terminal screen hot-zone outside boundary, with finger on touch screen, skid off a boundary i.e. the second movement locus, then this movement locus is set to the border of described boundary region.In order to the reliability operated, boundary region arrange request can by user input setting button or order trigger, to avoid maloperation.

By above-mentioned second movement locus being set to the border of boundary region, when being convenient to subsequent user use one-handed performance, control terminal automatically switches to singlehanded touch screen pattern, facilitates the operation that user is follow-up.

Similar, in order to avoid the mistake identification to operation intention of user, or avoid repeatedly carrying out pattern switching, can on the basis of above-described embodiment, before detecting the first movement locus obtaining the preset bounds overlying regions movement on terminal touch screen of user's finger, also comprise:

When detecting that the position that described user points is positioned at preset bounds region on described terminal touch screen, show the message for pointing out user whether to start singlehanded touch screen pattern.

Concrete, when the position detecting that described user points is positioned at preset bounds region on described terminal touch screen, the message of display for pointing out user whether to start singlehanded touch screen pattern, select whether start singlehanded touch screen pattern for user, after determining that user have selected the singlehanded touch screen pattern of startup, controlling described terminal switch is singlehanded touch screen pattern, otherwise, do not start singlehanded touch screen pattern.

On the basis of above-described embodiment, the first movement locus needs the desired guiding trajectory condition met preferably to meet the track of user's one-handed performance custom.Such as, when the thumb of the right hand needs the icon clicking the screen upper left corner, will there is one-handed performance difficulty, now need to be switched to singlehanded touch screen pattern in typical right hand-held set when operating.Then corresponding, the upper left corner area of touch-screen can be set to desired location, then controlling described terminal switch according to described first movement locus is that the operation of singlehanded touch screen pattern can specifically comprise:

Whether the movement tendency judging described first movement locus is close towards the desired location of described touch-screen;

If so, then controlling described terminal switch is singlehanded touch mode.

Wherein, the corresponding relation storing various movement tendency and desired location is preset in terminal, the movement tendency of its correspondence can be determined according to the first movement locus, further according to the corresponding relation of movement tendency and desired location, determine whether the movement tendency of this movement locus is close towards the desired location of described touch-screen.Such as, desired location is the upper left corner, and when user's finger is close to the upper left corner, then controlling described terminal switch is singlehanded touch mode.Above-mentioned technology meets user's one-handed performance custom more, and what singlehanded pattern can be made to switch is more timely, accurate.

The border in above-mentioned preset bounds region is preferably positioned at the horizontal separatrix in the middle part of described touch-screen.Then the first half of touch-screen is preset bounds region, and the setting in this region is also the demand considering user's one-handed performance, there will be operating difficulties, then need the switching carrying out one-hand operating format when user's finger needs to reach the first half.

For the specific implementation of singlehanded touch mode, the embodiment of the present invention also provides preferred solution, and namely on the basis of above-described embodiment, controlling described terminal switch according to described first movement locus is that singlehanded touch screen pattern specifically comprises:

When recognizing described first movement locus and meeting desired guiding trajectory condition, determine the tangential direction of described first movement locus current time camber line;

The application icon controlled on described touch-screen shrinks along the direction contrary with described tangential direction.

Wherein, desired guiding trajectory condition can for exceed preset bounds region border after finger sliding Preset Time or predeterminable range.The motion normally continuous print of user's finger, when the first movement locus got meets desired guiding trajectory condition, namely as current time, and can not consider the motion track that user is follow-up.Wherein, tangential direction characterizes the direction that user's finger is about to slide.When recognizing described first movement locus and meeting desired guiding trajectory condition, the application icon then controlled on described touch-screen shrinks along the direction contrary with described tangential direction, the position of this direction normally user's handling terminal, shrink icon to this direction, user can be made to point and can touch application icon easily.

Wherein, shrink and can move along the direction contrary with described tangential direction, until user touches required application icon for the size or control application icon entirety reducing application icon.

Or another switching mode of singlehanded touch screen pattern is, on the basis of above-described embodiment, controlling described terminal switch according to described first movement locus is that singlehanded touch screen pattern specifically comprises:

Select any two points on described first movement locus;

The motion vector that described user points is determined according to described 2;

The application icon controlled on described touch-screen shrinks along the direction contrary with described motion vector.

Such scheme is the operating habit considering user equally, when switching to singlehanded touch screen pattern, is shunk the position that application icon may grip terminal to user, so that clicking operation.

Second embodiment

Fig. 2 a is the schematic flow sheet of a kind of singlehanded touch screen implementation method that second embodiment of the invention provides, and as shown in Figure 2 a, specifically comprises the steps:

Step 21, when detecting that the position that described user points is positioned at preset bounds region on described terminal touch screen, show the message for pointing out user whether to start singlehanded touch screen pattern.After user have selected the singlehanded touch screen pattern of startup, then perform step 22, otherwise terminate.

Such as, as shown in Figure 2 b, the horizontal neutrality line in figure in the middle part of touch-screen is the boundary line in preset bounds region, wherein below boundary line for user points the hot-zone of touching, namely user is with the one hand region that can touch, above boundary line for user's one hand be difficult to touch or touch less than region.When the position detecting that described user points is suspended in the region above boundary line, then shows the message for pointing out user whether to start singlehanded touch screen pattern, selecting for user.

Step 22, detection obtain the first movement locus of user's finger preset bounds overlying regions movement on terminal touch screen;

Step 23, any two points selected on described first movement locus;

Step 24, determine according to described 2 the motion vector that described user points;

Such as, as shown in Figure 2 c, determine that the direction of the motion vector that described user points is the upper left corner.

Step 25, the application icon controlled on described touch-screen shrink along the direction contrary with described motion vector.

Such as, as shown in Figure 2 c, when the motion vector determining that user points is to upper left angular motion, then tentatively can determine that user wants to click the application icon in the upper left corner, and then the application icon scaled down certain value at whole interface, whole interface is moved the click catering to user to the lower right corner simultaneously.

The present embodiment achieves and automatically can start one-hand operating format under the condition of not adding users manual operation step, and the application icon controlled on described touch-screen shrinks along the direction contrary with the motion vector that described user points, user is made to click the screen area being originally difficult to touching smoothly, facilitate user, meet user's request.

3rd embodiment

Fig. 3 is the schematic flow sheet of a kind of singlehanded touch screen implementation method that third embodiment of the invention provides, and as shown in Figure 3, specifically comprises the steps:

Step 31, detection obtain the first movement locus of user's finger preset bounds overlying regions movement on terminal touch screen.

Whether step 32, the movement tendency judging described first movement locus are close towards the desired location of described touch-screen.If so, then perform step 33, otherwise terminate.

Step 33, recognize user finger reach Preset Time in the preset bounds regional movement time time, determine the tangential direction of the first movement locus current time camber line;

Step 34, the application icon controlled on described touch-screen shrink along the direction contrary with described tangential direction.

The present embodiment achieves and automatically can start one-hand operating format under the condition of not adding users manual operation step; and by determining the tangential direction of the movement locus camber line of current time user finger in preset bounds region; and the application icon controlled on described touch-screen shrinks along the direction contrary with described tangential direction; user is made to click the screen area being originally difficult to touching smoothly; facilitate user, meet user's request.

4th embodiment

Fig. 4 is the structural representation of a kind of singlehanded touch screen implement device that fourth embodiment of the invention provides.As shown in Figure 4, described device comprises: the first track acquisition module 41 and pattern switch control module 42.

First track acquisition module 41 obtains the first movement locus of user's finger preset bounds overlying regions movement on terminal touch screen for detecting;

It is singlehanded touch screen pattern for controlling described terminal switch according to described first movement locus that pattern switches control module 42.

Exemplary, on the basis of above-described embodiment, described device also comprises:

Second track acquisition module 43 arranges request for the boundary region according to user, detects the second movement locus obtaining the movement on described touch-screen of user's finger;

Described device also comprises:

Boundary setting module 44 is for being set to the border of described boundary region by described second movement locus.

Exemplary, on the basis of above-described embodiment, said apparatus also comprises:

Message display module 45 for described first track acquisition module 41 detect obtain user finger preset bounds overlying regions movement on terminal touch screen the first movement locus before,

When detecting that the position that described user points is positioned at preset bounds region on described terminal touch screen, show the message for pointing out user whether to start singlehanded touch screen pattern.

Exemplary, on the basis of above-described embodiment, above-mentioned pattern switches control module 42 specifically for judging whether the movement tendency of described first movement locus is close towards the desired location of described touch-screen; If so, then controlling described terminal switch is singlehanded touch mode.

Exemplary, on the basis of above-described embodiment, the border of above-mentioned boundary region is the horizontal separatrix be positioned in the middle part of described touch-screen.

Exemplary, on the basis of above-described embodiment, above-mentioned pattern switches control module 42 specifically for when recognizing described first movement locus and meeting desired guiding trajectory condition, determines the tangential direction of described first movement locus current time camber line; The application icon controlled on described touch-screen shrinks along the direction contrary with described tangential direction.

Exemplary, on the basis of above-described embodiment, above-mentioned pattern switches control module 42 specifically for selecting any two points on described first movement locus; The motion vector that described user points is determined according to described 2; The application icon controlled on described touch-screen shrinks along the direction contrary with described motion vector.

The singlehanded touch screen implement device that the present embodiment provides can be used for the singlehanded touch screen implementation method that execution any embodiment of the present invention provides, and possesses corresponding functional module, realizes identical beneficial effect.

Obviously, it will be understood by those skilled in the art that above-mentioned of the present invention each module or each step can by server implementations as above.Alternatively, the embodiment of the present invention can realize by the executable program of computer installation, thus they storages can be performed by processor in the storage device, described program can be stored in a kind of computer-readable recording medium, the above-mentioned storage medium mentioned can be ROM (read-only memory), disk or CD etc.; Or they are made into each integrated circuit modules respectively, or the multiple module in them or step are made into single integrated circuit module to realize.Like this, the present invention is not restricted to the combination of any specific hardware and software.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, to those skilled in the art, the present invention can have various change and change.All do within spirit of the present invention and principle any amendment, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (14)

1. a singlehanded touch screen implementation method, is characterized in that, comprising:

Detect the first movement locus obtaining the preset bounds overlying regions movement on terminal touch screen of user's finger;

Controlling described terminal switch according to described first movement locus is singlehanded touch screen pattern.

2. method according to claim 1, is characterized in that, also comprises:

Boundary region according to user arranges request, detects the second movement locus obtaining the movement on described touch-screen of user's finger;

Described second movement locus is set to the border of described boundary region.

3. method according to claim 1, is characterized in that, before detecting the first movement locus obtaining the preset bounds overlying regions movement on terminal touch screen of user's finger, also comprises:

When detecting that the position that described user points is positioned at preset bounds region on described terminal touch screen, show the message for pointing out user whether to start singlehanded touch screen pattern.

4. method according to claim 1, is characterized in that, controlling described terminal switch according to described first movement locus is that singlehanded touch screen pattern comprises:

Whether the movement tendency judging described first movement locus is close towards the desired location of described touch-screen;

If so, then controlling described terminal switch is singlehanded touch mode.

5., according to the method described in claim 1, it is characterized in that, the border of described boundary region is the horizontal separatrix be positioned in the middle part of described touch-screen.

6., according to the arbitrary described method of claim 1-5, it is characterized in that, controlling described terminal switch according to described first movement locus is that singlehanded touch screen pattern comprises:

When recognizing described first movement locus and meeting desired guiding trajectory condition, determine the tangential direction of described first movement locus current time camber line;

The application icon controlled on described touch-screen shrinks along the direction contrary with described tangential direction.

7., according to the arbitrary described method of claim 1-5, it is characterized in that, controlling described terminal switch according to described first movement locus is that singlehanded touch screen pattern comprises:

Select any two points on described first movement locus;

The motion vector that described user points is determined according to described 2;

The application icon controlled on described touch-screen shrinks along the direction contrary with described motion vector.

8. a singlehanded touch screen implement device, is characterized in that, comprising:

First track acquisition module, for detecting the first movement locus obtaining the preset bounds overlying regions movement on terminal touch screen of user's finger;

Pattern switches control module, is singlehanded touch screen pattern for controlling described terminal switch according to described first movement locus.

9. device according to claim 8, is characterized in that, also comprises:

Second track acquisition module, arranges request for the boundary region according to user, detects the second movement locus obtaining the movement on described touch-screen of user's finger;

Boundary setting module, for being set to the border of described boundary region by described second movement locus.

10. device according to claim 8, is characterized in that, also comprises:

Message display module, for before detecting the first movement locus obtaining the preset bounds overlying regions movement on terminal touch screen of user's finger, when detecting that the position that described user points is positioned at preset bounds region on described terminal touch screen, show the message for pointing out user whether to start singlehanded touch screen pattern.

11. devices according to claim 8, is characterized in that, described control module specifically for:

Whether the movement tendency judging described first movement locus is close towards the desired location of described touch-screen; If so, then controlling described terminal switch is singlehanded touch mode.

12. devices according to Claim 8 described in item, it is characterized in that, the border of described boundary region is the horizontal separatrix be positioned in the middle part of described touch-screen.

13.-12 arbitrary described devices according to Claim 8, is characterized in that, described control module specifically for:

When recognizing described first movement locus and meeting desired guiding trajectory condition, determine the tangential direction of described first movement locus current time camber line; The application icon controlled on described touch-screen shrinks along the direction contrary with described tangential direction.

14.-12 arbitrary described devices according to Claim 8, is characterized in that, described control module specifically for:

Select any two points on described first movement locus; The motion vector that described user points is determined according to described 2; The application icon controlled on described touch-screen shrinks along the direction contrary with described motion vector.