CN107797747A - A kind of screen control method, device and terminal based on multi-screen - Google Patents
A kind of screen control method, device and terminal based on multi-screen Download PDFInfo
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- CN107797747A CN107797747A CN201610797696.4A CN201610797696A CN107797747A CN 107797747 A CN107797747 A CN 107797747A CN 201610797696 A CN201610797696 A CN 201610797696A CN 107797747 A CN107797747 A CN 107797747A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
- G06F3/0488—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
- G06F3/0488—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
- G06F3/04883—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures for inputting data by handwriting, e.g. gesture or text
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0481—Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance
- G06F3/04812—Interaction techniques based on cursor appearance or behaviour, e.g. being affected by the presence of displayed objects
Abstract
The invention discloses a kind of screen control method based on multi-screen,Device and terminal,When multiple touch-screens are provided with terminal,When can be according to user's one-handed performance,Zone of action on each touch-screen,Multiple touch-screens are respectively divided into singlehanded operable area and singlehanded inoperable region,By by the interactive interface in the singlehanded inoperable region on the first touch-screen in multiple touch-screens,It is mapped to and singlehanded operable area on the second touch-screen of the first touch-screen different faces,Realize the singlehanded exercisable purpose of all interactive elements on the first touch screen,Not only increase the feasibility and practical degree of the terminal especially one-handed performance of large-size screen monitors terminal,Also improve the Consumer's Experience of user's one-handed performance large-size screen monitors terminal,So that user in particular circumstances or user due to self-defect can only one-handed performance when,Obtain more preferable one-handed performance experience.In addition, using the present invention, the touch-screen of existing multi-screen terminal can also be made full use of, improves the utilization rate of touch-screen.
Description
Technical field
The present invention relates to communication technical field, and in particular to a kind of screen control method, device and terminal based on multi-screen.
Background technology
At present, with the development of terminal technology, terminal screen size is more and more, and number of screen is also on the increase.But
Wherein, large-size screen monitors terminal is all the time in occupation of the big share of terminal market.But due to the singlehanded size of different terminals user and use
The difference of custom, the terminal one-handed performance scope of each user are also different.
The most screen size of terminal on sale is all more than 5 inches on the market at present, the screen size of some terminals
6 inches can be reached, for these large-screen mobile phones, many users can only be grasped due to hand sizes are not big enough using both hands
Work could obtain preferable operating experience.This mode of operation is very single, and in actual use, user may need liberation another
One hand is used for other things, now just needs one-handed performance terminal, but for corresponding large-screen mobile phone, one-handed performance terminal
Experience is very bad, or even can not one-handed performance terminal.
The content of the invention
The technical problem underlying to be solved of the embodiment of the present invention is to provide a kind of screen control method based on multi-screen, dress
Put and terminal, at least partly solving can not grasp to the single one hand brought of effective mode of operation of terminal screen in the prior art
The problem of accomplishing the arbitrary region of handset touch panel.
In order to solve the above technical problems, the embodiment of the present invention provides a kind of screen control method based on multi-screen, including:
During according to user's one-handed performance terminal, the zone of action of multiple touch-screens in terminal, multiple touch-screens are distinguished
It is divided into singlehanded operable area and singlehanded inoperable region;Multiple touch-screens include the first touch-screen and with the first touch-screen
Second touch-screen of different faces;
At least by the interactive interface in singlehanded inoperable region on the first touch-screen, the one hand of the second touch-screen is mapped to
Operable area.
In order to solve the above technical problems, the embodiment of the present invention also provides a kind of screen actuation means based on multi-screen, including:
Division module, during for according to user's one-handed performance terminal, the zone of action of multiple touch-screens, will be more in terminal
Individual touch-screen is respectively divided into singlehanded operable area and singlehanded inoperable region;Multiple touch-screens include the first touch-screen and
With the second touch-screen of the first touch-screen different faces;
Mapping block, at least by the interactive interface in singlehanded inoperable region on the first touch-screen, being mapped to second
The singlehanded operable area of touch-screen.
In order to solve the above technical problems, the embodiment of the present invention also provides a kind of terminal, including multiple touch-screens and controller;
Multiple touch-screens include the first touch-screen and the second touch-screen with the first touch-screen different faces;
When controller is used for according to user's one-handed performance terminal, the zone of action of multiple touch-screens in terminal will be multiple
Touch-screen is respectively divided into singlehanded operable area and singlehanded inoperable region;At least one hand on the first touch-screen can not be grasped
Make the interactive interface in region, be mapped to the singlehanded operable area of the second touch-screen.
The embodiment of the invention discloses a kind of screen control method, device and terminal based on multi-screen, can touch one
The subregion for touching screen is mapped on another touch-screen.When multiple touch-screens are provided with terminal, by the way that first is touched
The singlehanded inoperable area maps on screen are touched to singlehanded operable area on the second touch-screen, are realized all on the first touch screen
The singlehanded exercisable purpose of interactive elements, not only increase the terminal especially one-handed performance of large-size screen monitors terminal can practical degree, and
And improve the Consumer's Experience of user's one-handed performance giant-screen mobile phone so that user is in particular circumstances or user is lacked due to itself
Falling into only when using one-handed performance, can only can realize more preferable usage experience.In addition, using the method for the present embodiment, can also fill
Divide the touch-screen using existing multi-screen terminal, improve the utilization rate of touch-screen.
Brief description of the drawings
Fig. 1 is a kind of flow chart for screen control method based on multi-screen that the embodiment of the present invention one provides;
Fig. 2 is a kind of schematic diagram of front touch-screen in the embodiment of the present invention one;Wherein the front touch-screen is in terminal
The singlehanded operable area A2 and singlehanded inoperable region A1 divided when being gripped vertically;
Fig. 3 is a kind of schematic diagram of backside touch screen in the embodiment of the present invention one;Wherein the backside touch screen is in terminal
The singlehanded operable area B1 and singlehanded inoperable region B2 divided when being gripped vertically;
Fig. 4 is the schematic diagram of another front touch-screen in the embodiment of the present invention one;Wherein the front touch-screen is at end
End is upside down the singlehanded operable area A4 divided during gripping and singlehanded inoperable region A3;
Fig. 5 is the schematic diagram of another backside touch screen in the embodiment of the present invention one;Wherein the backside touch screen is at end
End is upside down the singlehanded operable area B3 divided during gripping and singlehanded inoperable region B4;
Fig. 6 is the schematic diagram of another front touch-screen in the embodiment of the present invention one;Wherein the front touch-screen is at end
The singlehanded operable area A6 and singlehanded inoperable region A5, A7 that end divides when being gripped vertically;
Fig. 7 is the schematic diagram of another backside touch screen in the embodiment of the present invention one;Wherein the backside touch screen is at end
The singlehanded operable area B5 and singlehanded inoperable region B6 that end divides when being gripped vertically;
Fig. 8 is the schematic diagram of another front touch-screen in the embodiment of the present invention one;Wherein the front touch-screen is at end
Hold the singlehanded operable area A9 divided during by horizontal gripping and singlehanded inoperable region A8;
Fig. 9 is the schematic diagram of another backside touch screen in the embodiment of the present invention one;Wherein the backside touch screen is at end
Hold the singlehanded operable area B9 divided during by horizontal gripping and singlehanded inoperable region B8;
Figure 10 is the flow chart for another screen control method based on multi-screen that the embodiment of the present invention two provides;
Figure 11 is a kind of module diagram for screen actuation means based on multi-screen that the embodiment of the present invention three provides.
Embodiment
The present invention is described in further detail below by embodiment combination accompanying drawing.
Embodiment one:
Referring to Fig. 1, the present embodiment provides a kind of screen control method based on multi-screen, can be provided with terminal multiple
When touch-screen, by the division and the mapping in the region of different touch-screens in the region to multiple touch-screens, it will be touched first
Touch the upper user's one-handed performance of screen less than the region that can be touched to user in terminal of area maps, so that user grasps in one hand
When making, the operation to the first touch-screen of whole terminal, the side of the present embodiment can be realized by the operation to different touch-screens
Method is particularly suitable for use in the one-handed performance of large-size screen monitors terminal, can be that user bring more preferable one-handed performance to experience.The present embodiment based on
The screen control method of multi-screen includes:
S101, according to user's one-handed performance terminal when, the zone of action of multiple touch-screens in terminal, by multiple touch-screens
It is respectively divided into singlehanded operable area and singlehanded inoperable region;Multiple touch-screens include the first touch-screen and touched with first
Touch the second touch-screen of screen different faces;When zone of action therein can be understood as user's one-handed performance, finger is in the more of terminal
Touch area on individual screen.
S102, at least by the interactive interface in singlehanded inoperable region on the first touch-screen, be mapped to the second touch-screen
Singlehanded operable area.
Wherein S102 includes two kinds of situations, by the interactive interface in the singlehanded inoperable region on the first touch-screen, mapping
Singlehanded operable area on to the second touch-screen;Or the interactive interface by the singlehanded inoperable region on the first touch-screen,
It is mapped to singlehanded operable area on the second touch-screen, while by interaction circle in the singlehanded inoperable region on the second touch-screen
Face, it is mapped to singlehanded operable area on the first touch-screen.
In the present embodiment, terminal include but is not limited to mobile phone, tablet personal computer etc. can be with the equipment of hand-held.It is general to use
The interface of the terminal of family operation is the touch interface positioned at terminal front side.First touch-screen of the present embodiment can be positive touches
Interface is touched, or the second touch-screen is the touch interface of terminal front side.For convenience of description, by positive touch in the present embodiment
Screen is regarded as the first touch-screen, and the touch-screen in other faces is regarded as into the second touch-screen.Wherein, positive touch-screen is usually to show mould
Block and touch pad formation superposed on one another in the form of layer, so the display screen area of existing terminal may be considered the first touch
Region where shielding.In the present embodiment, the first touch-screen can only have one piece, the synthesis that can also be made up of polylith touch-screen
Touch-screen, for example, the folding multi-screen mobile phone etc. having been developed for has a mobile phone of multiple display screens, each display screen can be with
Individually carry out a little touching operation, all display screens can also be incorporated as to a big synthesis display screen and play screen for user
Deng.Such a multi-screen mobile phone falls within the application of the method for this implementation.
When the division of singlehanded operable area and singlehanded inoperable region on first touch-screen is with user's using terminal
The grip state of terminal is relevant, if for example, terminal is held in the hand by user is perpendicular, now, the singlehanded operable area of terminal
It is usually to be divided with the line of demarcation of horizontal direction with singlehanded inoperable region, if terminal is held in the hand by user is horizontal, eventually
The singlehanded operable area at end and singlehanded inoperable region are usually to be divided with the line of demarcation of vertical direction.
Wherein, the second touch-screen can be arranged on the position such as the back side of terminal, the side of terminal, and the present embodiment does not enter to this
Row limitation.
Illustrated below so that the second touch-screen is arranged on the right flank of terminal as an example, when the second touch-screen is arranged on terminal
Right flank when, the touch-screen of the right flank is usually strip.Carrying out singlehanded operable area and singlehanded inoperable area
Can be singlehanded operable area by the region division that user's finger can touch on right flank touch-screen when the division in domain
Domain, other region divisions are singlehanded inoperable region.In view of the finite thickness of terminal, in order in the right flank of finite width
The first touch-screen of control terminal is realized on touch-screen, by the interactive interface in the singlehanded inoperable region on the first touch-screen
, can be by the interactive interface of application program in a certain order when being mapped to singlehanded operable area on right flank touch-screen
It is sequentially mapped to from top to bottom on the side touch-screen of strip.It is contemplated that general user's extinction uses right hand one-handed performance hand
Machine, the right flank that the second touch-screen is arranged on to terminal is applied to the positive custom for gripping mobile phone of most of users, when user will
When mobile phone upside down gripping, the second touch-screen can be arranged on to the left surface of terminal, its design may be referred to the above-mentioned right side
The design of the touch-screen of side.Certainly, the touch-screen of left and right side can be arranged in terminal simultaneously.In addition, if condition permits
Perhaps, the upper side or downside for the terminal that the second touch-screen can also be set, when holding terminal so that user is horizontal, to single in terminal
Hand operation less than region be controlled, the mode of setting may be referred to the mode that above-mentioned right flank sets touch-screen.
Wherein, in the present embodiment, multiple touch-screens can also include the 3rd touch-screen, the 4th touch-screen, the 5th touch
Screen etc., each equal different faces of touch-screen.The extension of the set-up mode of second touch-screen can be obtained into the 3rd touch-screen, the 4th touched
Touch the set-up mode of screen etc..
But we can draw by above-mentioned analysis, when setting touch-screen on side, due to the face of side frame
Long-pending limitation, the shape that touch-screen is set is extremely limited, for the interactive interface in singlehanded inoperable region on the first touch-screen
Operation it is also limited.The second touch-screen of demand in view of to(for) area, it is preferable that set the touch screen positioned at the terminal back side
It is set to the second touch-screen.There is a kind of positive and negative double screen terminal in existing terminal device, whole according to the double screen of this type
End, in the present embodiment, is arranged to the first touch-screen, another is arranged to the second touch-screen by one of touch-screen.In addition,
In the present embodiment, the second touch-screen can be the screen for only having touch function.
Understood with reference to above-mentioned analysis, when user changes to the grip state of terminal, the one hand of the first touch-screen can be grasped
Making the division in region and singlehanded inoperable region also can and then change, it is also possible to cause the singlehanded operable of the second touch-screen
The change of the division in region and singlehanded inoperable region, thus, in the present embodiment, user is divided into the grip state of terminal
It is following two:Terminal is in be erected and holds state and hold state by horizontal.
When terminal be in by it is perpendicular hold state when, it is usually to be held in the bottom of terminal that user, which is hold by one hand terminal, now, is used
It is usually to be completed by the thumb of user that family operates on the first touch-screen of terminal, and other fingers are usually to operate
First touch-screen, and the region for the first touch-screen that user is touched by thumb is usually in the bottom of terminal.In view of
This, then when multiple touch-screens in terminal are respectively divided into singlehanded operable area and singlehanded inoperable region, to first
The division of touch-screen includes:During by user's one-handed performance terminal, tangible region of the finger in the first touch-screen bottom is divided into
Singlehanded operable area, it is singlehanded inoperable region by other region divisions on the first touch-screen.Now, in the first touch-screen
On, the tangible region of finger (being usually thumb) in terminal bottom of user is divided for singlehanded operable area, will
The terminal upper area that the finger of user can not touch is divided for singlehanded inoperable region.
Wherein, on the second touch-screen, user can use other fingers, such as forefinger or middle finger to carry out the second touch-screen
Touch control operation.Wherein, it is however generally that, the scope of activities of forefinger and middle finger is the top half in the second touch-screen, so at this
In embodiment, the division for the second touch-screen includes:Finger tangible region of the user on the second touch-screen top is divided
It is singlehanded inoperable region by other region divisions of the second touch-screen for singlehanded operable area.Thus, second is touched
The top of screen, the tangible region of forefinger or middle finger etc. is divided for singlehanded operable area, can not by forefinger or middle finger etc.
The region division of touch is for singlehanded inoperable region.
After the completion of division, as long as performing S102, i.e., after completing to map, user is the whole terminal of one-hand operation.
Wherein, S102 specific mapping process includes:The interactive interface in the singlehanded inoperable region on the first touch-screen is mapped to
Singlehanded operable area on second touch-screen.Certainly, S102 can also be included singlehanded inoperable area on the second touch-screen
The interactive interface in domain is mapped to the singlehanded operable area on the first touch-screen, still, it is contemplated that when user is hold by one hand terminal,
The positions such as the centre of the palm are usually the touch-screen of face second, can be touched unavoidably, are occurred in order to avoid the situation of maloperation, typically
The interactive interface in the singlehanded inoperable region of the first touch-screen is only mapped to the singlehanded inoperable interface of the second touch-screen.
It is appreciated that if the normal operating interface of terminal is the interface where the second touch-screen, the process of the specific mapping in S102
Including:By the interface image in singlehanded inoperable region on the second touch-screen to the singlehanded operable interface of the first touch-screen.
Further, it is contemplated that the one hand on singlehanded operable area and the second touch-screen on the first touch-screen can not be grasped
Make the size in region and shape might have difference, in the present embodiment, S102 is specially:According to the first touch-screen of terminal
On the area in singlehanded inoperable region and the area of the second touch-screen suitable ratio is set, by the list on the first touch-screen
For the interactive interface in the inoperable region of hand according to the ratio of setting, scaled down is mapped to the singlehanded operable of the second touch-screen
Region.In another embodiment, the friendship in the singlehanded inoperable region on the non-touch-screen of scaled down first can also be used
The mode at mutual interface, as long as can be with the UI (User on the touch-screen of Complete Mappings touch-control first on the second touch-screen
Interface, user interface) element.UI elements include but is not limited to menu item, the application icon etc. at UI interfaces.If
In S102, it is also necessary to the operation interface in the singlehanded inoperable region on the second touch-screen is mapped on the first touch-screen singlehanded
Operable area, then can also be according to the area and first in the singlehanded inoperable region on the second touch-screen of terminal when mapping
The area of touch-screen sets suitable ratio, by the interactive interface in the singlehanded inoperable region on the second touch-screen according to setting
Ratio, scaled down is mapped to the singlehanded operable area of the first touch-screen.
In general, user is erected when holding terminal, two states can also be subdivided into, one kind is ordinary grip, and one kind is to hold.Can
With understanding, the upper and lower part region of the first above-mentioned touch-screen and the second touch-screen is a kind of relative state.The emerging hand in
Exemplified by machine, when user's ordinary grip terminal, for above-mentioned the first touch-screen and the second touch-screen, the preposition shooting with terminal
The access areas of head is upper area, the lower area with the closer region of Touch control key of terminal;When user holds terminal,
For above-mentioned the first touch-screen and the second touch-screen, the access areas with the front camera of terminal is lower area,
With the upper area in the closer region of Touch control key of terminal.
It is contemplated that if the first touch-screen of terminal and the mapping relations of the second touch-screen are always on, can not only make
Into the waste of terminal resource, it also occur that many maloperation events.In order to avoid the generation of the above situation, the terminal of the present embodiment
Mapping touch controllable function key (virtual or entity all can) can be set, after mapping touch controllable function key and being opened by user, just progress
The step of S101.Wherein, i.e., can be to this first touch-screen and after S102 after the completion of this mapping settings
The setting of two touch-screens is stored, when user needs to be again turned on mapping touch controllable function, according to the hand holding state of terminal (just
Hold, hold, horizontal holding), existing setting can be recalled from historical record, avoids user from being once again set up losing time and essence
Power.
In the present embodiment, for the division of the first touch-screen and the second touch-screen, it can be implemented separately by terminal, also may be used
To be realized by terminal according to the real-time setting of user.
Perpendicular hold for the terminal that can be prestored when being implemented separately by terminal, in terminal is held under state with horizontal, the first touch-screen and
The division rule of second touch-screen, so that the second touch-screen is the touch-screen at the back side as an example, terminal can obtain user in terminal
Effective zone of action (tangible region) of thumb, is then arranged to the first touch-screen by the effective coverage on first touch-screen
Singlehanded operable area, by other regions (non-one hand can be with operating area) of the first touch-screen in terminal be arranged to it is singlehanded not
Operable area.Wherein, terminal, which can network, obtains the effective coverage area, and the effective coverage can be the chi based on the terminal
The average value that effective zone of action of the very little and different size of palm in terminal is calculated.For single on the second touch-screen
The inoperable region of hand and the setting of singlehanded operable area, it is similar with the above method.
When being realized by terminal according to the real-time setting of user so that user can be according to the one hand (left hand or the right hand) of oneself
The actual size of actual size and terminal sets the size of touch-screen.Wherein, it is perpendicular hold terminal when, user can touch first
On screen with finger (be usually thumb) from the left side of screen to right side or from right side to left side (when terminal screen is larger, can
To be from the right side of screen to screen bottom) standardized road camber line, the top half of camber line is arranged to singlehanded inoperable by terminal
Region, the latter half of camber line is arranged to singlehanded operable area;On the second touch-screen, user utilizes forefinger from screen
Left side turn right or from right side toward left side draw one of camber line.Region above camber line is singlehanded operable area by terminal, arc
Region below line is singlehanded inoperable region.
Referring to Fig. 2 and Fig. 3, terminal is respectively illustrated in perpendicular hold, the first touch-screen divides singlehanded operable area and list
The inoperable region of hand and the second touch-screen divide the schematic diagram in singlehanded operable area and singlehanded inoperable region, in Fig. 2
In Fig. 3, terminal is in ordinary grip state.
When user is perpendicular holds terminal, after mapping touch controllable function is opened, the form of animation can be used to prompt user in Fig. 2 institutes
Thumb marks its region that can be covered on the first touch-screen shown.Typically, one is marked from the right side of screen to screen bottom
Road camber line, such as the camber line in Fig. 2, camber line upper area is A1, is the singlehanded inoperable region of user, and camber line lower zone is
A2, it is user's one hand operable area.
After A1 and A2 regions delimited, user can be prompted to mark it with forefinger on the second touch-screen shown in Fig. 3
The region that can be covered, typically, from the right side of screen to screen, one of camber line is marked in left side, as shown in figure 3, accordingly, camber line
Upper area is B1, is user's one hand operable area;Camber line lower zone is B2, is the singlehanded inoperable region of user.
Because user's thumb coverage rate highest region is A2 regions, now, the forefinger of user can live at mobile phone back
Dynamic, the forefinger coverage rate highest region is B1 regions, because A1 regions and B1 region areas are not necessarily identical, therefore by A1 areas
The interactive interface (application icon or menu item) in domain is mapped to B1 regions by a certain percentage, when in B1 area triggering clicking operations
When, correspondence mappings to A1 regions.
By the superposition of the thumb zone of action and B1 regions forefinger zone of action in A2 regions, mobile phone UI interfaces are completed
The all standing of element layout, solve the problems, such as that the interactive elements in A1 regions are difficult to be clicked in the case of one hand.
When user, which upside down, grips mobile phone, smart mobile phone possesses automatic rotation function, and UI interfaces can be with user gripping side
To change and adjust automatically, referring to Fig. 4 and Fig. 5, respectively illustrate the first touch-screen divide singlehanded operable area and it is singlehanded not
Operable area and the second touch-screen divide the schematic diagram in singlehanded operable area and singlehanded inoperable region.
When user is perpendicular holds terminal, after mapping touch controllable function is opened, the form of animation can be used to prompt user in Fig. 4 institutes
Thumb marks its region that can be covered on the first touch-screen shown.Typically, one is marked from the right side of screen to screen bottom
Road camber line, such as the camber line in Fig. 4, camber line upper area is A3, is the singlehanded inoperable region of user, and camber line lower zone is
A4, it is user's one hand operable area.
After A1 and A2 regions delimited, user can be prompted to mark it with forefinger on the second touch-screen shown in Fig. 5
The region that can be covered, typically, from the right side of screen to screen, one of camber line is marked in left side, as shown in figure 5, accordingly, camber line
Upper area is B3, is user's one hand operable area;Camber line lower zone is B4, is the singlehanded inoperable region of user.Will
The interactive interface (application icon or menu item) in A3 regions is mapped to B3 regions in proportion, when in B3 area triggering clicking operations
When, correspondence mappings to A3 regions.
It is contemplated that if the mobile phone that turns upside down each time, all re-starts if once setting, it is current to interrupt user
Use, the usage experience of bad luck is brought to user, can also waste time of user.Thus further, run above and below user
After gripping mobile phone, original singlehanded operable area (the A2 regions in Fig. 2) on the first touch-screen is arranged to one hand not
Operable area, original inoperable region of one hand (the A1 regions in Fig. 2) is arranged to singlehanded operable area, by second
Original singlehanded operable area (the B1 regions in Fig. 3) on touch-screen is arranged to singlehanded inoperable region, original list
The inoperable region of hand (the B2 regions in Fig. 3) is arranged to singlehanded operable area, and then by the one hand on the first touch-screen
On singlehanded operable area on inoperable area maps to the second touch-screen.Also i.e. by the interactive interface in A2 regions in Fig. 2
The B2 regions being mapped in Fig. 3.
Furthermore, it is contemplated that perpendicular, the use habit of user is probably the singlehanded center section for holding terminal when holding terminal, this
When, if terminal screen is larger, user's thumb is likely to cover the top sub-screen and bottom sub-screen of terminal, is only capable of covering
One section of screen among covering.Now, the division to the first touch-screen includes:During by user's one-handed performance terminal, finger is first
The tangible region at the middle part of touch-screen is divided into singlehanded operable area, by singlehanded operable area on the first touch-screen
Upper and lower two region divisions are singlehanded inoperable region;Division to the second touch-screen includes:By user in the second touch-screen
The finger tangible region on top is divided into singlehanded operable area, is that one hand can not by other region divisions of the second touch-screen
Operating area, the second touch-screen one hand operable area is divided into two operable subregions of one hand.
Now, step S102 includes:By the interactive interface in two inoperable regions of one hand on the first touch-screen, difference
It is mapped to two operable subregions of one hand of the second touch-screen.It is understood that two one hands on the first touch-screen are not
Two operable subregions of one hand of operable area and the second touch-screen are one-to-one relations.
Above-mentioned division can be implemented separately by terminal, can also be realized by terminal according to the real-time setting of user.
The mode being implemented separately for terminal, with reference to above-mentioned related narration.The present embodiment repeats no more
For the mode realized by terminal according to the real-time setting of user, referring to Fig. 6 and Fig. 7, respectively illustrate first and touch
Touch screen and divide singlehanded operable area and singlehanded inoperable region, and the second touch-screen divides singlehanded operable area and list
The schematic diagram in the inoperable region of hand.
As shown in fig. 6, camber line is the curve that thumb slides at the middle part of the first touch-screen, A5 and A7 regions are that user is big
The region that thumb can not cover, A6 regions are one section of the centre screens that user is only capable of covering, wherein, drawn to simplify region
Point, the rectangle of camber line will be slided comprising thumb as A6 regions, now the first touch screen zone is divided into A5, A6, A7 tri-
Region.
Referring to Fig. 7, on the second touch-screen, singlehanded operable area (the region B5 in Fig. 7) and list are still first divided
The inoperable region of hand (B6 in Fig. 7), specific division rule describe referring to other above-mentioned correlations, afterwards, one hand can be grasped
Make region B5 and be divided into the operable subregion B51 and B52 of two one hands, correspond respectively to A5 and A7.Wherein singlehanded operable son
Region B51 and B52 division may refer to the dividing mode in Fig. 7 or obtained by singlehanded operable area B5 horizontal divisions
Arrive.
The interactive interface in A5 and A7 regions is mapped to B51 and B52 regions, the touching signals in B51 and B52 regions, i.e.,
It can correspond to A5 and A7 regions, so as to which solve that the interactive elements in A5 and A7 regions are difficult to be clicked in the case of one hand asks
Topic, certainly, in the present embodiment can also be corresponding with A7 by B51, and B52 is corresponding with A5.
When terminal be in by it is horizontal hold state when, typically on the first touch-screen and the second touch-screen, user's one hand is operable
Region is corresponding.Now, the first touch-screen is divided into:It is if terminal is in holds state by horizontal, user's one-handed performance is whole
During end, finger (being usually thumb) tangible region is divided into singlehanded operable on the first touch-screen of one-handed performance side
Region, it is singlehanded inoperable region by other region divisions on the first touch-screen;Second touch-screen is divided into:By one hand
Operate finger tangible region on the second touch-screen of side and be divided into singlehanded operable area, by other areas of the second touch-screen
Domain is divided into singlehanded inoperable region.Above-mentioned setting allows for the problem of user's use habit, when user gets used to
When right hand one-handed performance, the singlehanded of user that be arranged to of the right area of the first touch-screen and the second touch-screen can be grasped
Make region, left area is singlehanded inoperable region;, can be by the first touch-screen and second when user gets used to left hand
The one-handed performance region for being arranged to user of the left area of touch-screen, right area are singlehanded inoperable region.
After the completion of above-mentioned division, in S102, as long as interaction circle by the singlehanded inoperable region of the first touch-screen
Face is mapped to the singlehanded operable area of the second touch-screen.
Terminal is in respectively with reference to Fig. 8 and Fig. 9 by it is horizontal hold state when, the first touch-screen and the second touch-screen are drawn
Divide and explain, for Fig. 8 in Fig. 9, user is to utilize right hand one-handed performance terminal.
Referring to Fig. 8, when user is horizontal holds terminal, after mapping touch controllable function is opened, the form prompting of animation can be used to use
Family thumb on the first touch-screen shown in Fig. 8 marks its region that can be covered.Typically, using thumb from the upper of screen
(or upside from the downside of screen to screen) marks one of camber line on the downside of side to screen, such as the camber line in Fig. 8, area of camber line left side side
Domain is A8, is the singlehanded inoperable region of user, camber line lower zone is A9, is user's one hand operable area.
After A8 and A9 regions delimited, user can be prompted to mark it with forefinger on the second touch-screen shown in Fig. 9
Can covering region, typically, using forefinger or middle finger etc. can be movable on the second touch-screen finger from the second touch-screen
One of camber line is marked on the downside of upside to screen, as shown in figure 9, accordingly, camber line left area is B8, it is that user's one hand can not be grasped
Make region;Camber line right region is B9, is user's one hand operable area.
Because user's thumb coverage rate highest region is A9 regions, now, forefinger or middle finger of user etc. are in mobile phone
Back is movable, and the forefinger coverage rate highest region is B9 regions, because A9 regions and B9 region areas are not necessarily identical, because
The interactive interface (application icon or menu item) in A9 regions is mapped to B9 regions by this in proportion, is grasped when being clicked in B9 area triggerings
When making, correspondence mappings to A9 regions.
By the superposition of the thumb zone of action and B9 regions forefinger zone of action in A9 regions, mobile phone UI interfaces are completed
The all standing of element layout, solve the problems, such as that the interactive elements of the first touch-screen are difficult to be clicked in the case of one hand.
Wherein, above-mentioned partition process can also independently be realized by terminal, be divided according to its default division rule.
The particular content of default division rule may be referred to related narration above to acquisition modes.
Be described above user it is perpendicular hold with it is horizontal hold terminal when, singlehanded operable area and singlehanded inoperable area in terminal
The division in domain, after the completion of above-mentioned division, user can be touched with point of the using terminal on the first touch-screen and the second touch-screen
The control of all interactive elements on the first touch-screen is realized in operation.
It is contemplated that after above-mentioned division is completed, whether the second touch-screen can scan occurs a little to touch operation on screen, this
When, when holding terminal due to user, total finger of some can contact or imprudence touches the second touch-screen, now maloperation
Possibility with regard to bigger, in order to reduce the possibility of maloperation.Preferably, in the present embodiment, after S102, if second
The operation of user is received on touch-screen, then judges whether operation is default effectively operation, if so, operation then is mapped into the
The correspondence position in singlehanded inoperable region, otherwise, ignores operation on one touch-screen.Wherein, it is default effectively operation include but
It is not limited to:The point that double click operation or the dynamics for the click being calculated based on pressure sensor are more than certain threshold value touches operation etc.,
With the distinguishing operation of single-click operation.
In addition, in the present embodiment, for the ease of user in one-handed performance, can judge in the second touch screen operation,
Which region or which interactive elements on front are clicked, it is preferable that in the present embodiment, after S102, if
The operation of user is received on two touch-screens, then shows behaviour on the correspondence position in singlehanded inoperable region on the first touch-screen
The operation trace of work.It is easy to user to be moved up and down according to the position of the interactive elements such as the application icon for itself wanting to open
The movable finger on the second touch-screen.
Using the screen control method based on multi-screen of the present embodiment, when multiple touch-screens are provided with terminal, energy
During according to user's one-handed performance, the zone of action on each touch-screen, multiple touch-screens are respectively divided into singlehanded operable area
Domain and singlehanded inoperable region, by by the interactive interface in the singlehanded inoperable region on the first touch-screen, being mapped to the
Singlehanded operable area on two touch-screens, the singlehanded exercisable purpose of all interactive elements on the touch screen of front is realized, is not only carried
The high feasibility and practical degree of the terminal especially one-handed performance of large-size screen monitors terminal, also improves Consumer's Experience so that Yong Hu
Under particular surroundings or user due to self-defect can only one-handed performance when, obtain more preferable usage experience.In addition, using this hair
It is bright, the touch-screen of existing multi-screen terminal can also be made full use of, improves the utilization rate of touch-screen.
It is possible to further correspond to the operation vestige for showing user on the second touch-screen on the first touch-screen, so as to
The UI elements movement finger that user can operate as needed, more simplifies the difficulty of one-handed performance, improves user and touched second
Touch the degree of accuracy operated on screen.
Further, after receiving the operation of user on the second touch-screen, by whether being effectively to operate to the operation
Judgement, can avoid the maloperation of user, lift Consumer's Experience.
Embodiment two:
Referring to Figure 10, the present embodiment provides a kind of screen control method based on multi-screen, including:
S1001:User opens the mapping touch controllable function in terminal;
S1002:Terminal prompts user true in the first touch-screen and the enterprising line slip of the second touch-screen, difference in the form of animation
Determining finger can overlay area;
Wherein, the touch-screen of terminal first is general and display screen is overlapping.In the present embodiment, the side of user's handheld terminal
Formula is to erect to hold, and in S1002, user can be turned right on the left of flat screen with thumb and drawn a curve on a display screen,
Region on the downside of curve is that finger can overlay area;Drawn a curve on the second touch-screen with forefinger, the area on the upside of curve
Domain is that finger can overlay area.First touch-screen and the second touch-screen can be that the front touch-screen of terminal and the back side are touched respectively
Touch screen.
In another embodiment, user horizontal can also hold terminal, corresponding finger can the division of overlay area may be referred to
The associated description of embodiment one.
S1003:The region that thumb can not cover on first touch-screen is mapped to second by terminal according to suitable ratio
Finger can overlay area on touch-screen;
S1004:The point that second touch-screen receives user touches operation, and terminal judges that the point touches whether operation is effectively to operate,
If effectively operation, then continue S1005;Otherwise, the operation is ignored;
S1005:Point on second touch-screen is touched into operation correspondence mappings to the first touch-screen of terminal, corresponding to triggering
UI elements.
Here UI elements, including but not limited to menu item, the application icon etc. at UI interfaces.
Using the screen control method based on multi-screen of the present embodiment, the region between different touch-screens can mutually be reflected
Penetrate, when multiple touch-screens are provided with terminal, by the way that the singlehanded inoperable area maps on the first touch-screen are arrived
Singlehanded operable area on second touch-screen, the singlehanded exercisable purpose of all interactive elements on the first touch-screen is realized, no
The feasibility and practical degree of the terminal especially one-handed performance of large-size screen monitors terminal are improve only, also improves Consumer's Experience so that is used
Family is in particular circumstances or user is due to that when self-defect can only use one-handed performance, can obtain more excellent usage experience.In addition,
Using the method for the present embodiment, the touch-screen of existing multi-screen terminal can also be made full use of, improves the utilization rate of touch-screen.This
The method of embodiment is particularly suitable for use in the multi-screen terminals of large-size screen monitors.
Embodiment three:
Referring to Figure 11, the present embodiment provides a kind of screen actuation means based on multi-screen, including:
Division module 111, for multiple touch-screens in terminal to be respectively divided into singlehanded operable area and one hand not
Operable area;Multiple touch-screens include first touch-screen and the second touch-screen of one;
Mapping block 112, at least by the interactive interface in singlehanded inoperable region on the first touch-screen, being mapped to the
The singlehanded operable area of two touch-screens.
Wherein, can to the one hand of the multiple touch-screens of terminal according to the difference of the state of user's handheld terminal, division module 111
The division in operating area and singlehanded inoperable region is also different.
In the present embodiment, if division module 111 can be used for terminal in state is held by perpendicular, by user's one-handed performance end
During end, tangible region of the finger in the first touch-screen bottom is divided into singlehanded operable area, by the first touch-screen other
Region division is singlehanded inoperable region;Finger tangible region of the user on the second touch-screen top is divided into one hand
Operable area, it is singlehanded inoperable region by other region divisions of the second touch-screen, accordingly, mapping block 112 is used
In the singlehanded operable area for by the interactive interface in singlehanded inoperable region on the first touch-screen, being mapped to the second touch-screen.
When holding terminal in view of erecting, the use habit of user is probably the singlehanded center section for holding terminal, now, if eventually
End screen is larger, and user's thumb is likely to cover the top sub-screen and bottom sub-screen of terminal, is only capable of among covering
One section of screen.It is in if division module 111 can be also used for terminal and holds state by perpendicular, during by user's one-handed performance terminal, hand
Refer to the tangible region of (being usually thumb) at the middle part of the first touch-screen and be divided into singlehanded operable area, first is touched
Upper and lower two region divisions of singlehanded operable area are singlehanded inoperable region on screen;By user on the second touch-screen
The finger tangible region in portion is divided into singlehanded operable area, is that one hand can not be grasped by other region divisions of the second touch-screen
Make region, singlehanded operable area is divided into two operable subregions of one hand.
Now, mapping block 112, two operable subregions of one hand are marked off on the second touch-screen for division module
Afterwards, by the interactive interface in two inoperable regions of one hand on the first touch-screen, two of the second touch-screen are respectively mapped to
Singlehanded operable subregion.
In addition, it is contemplated that user need in some scenarios it is horizontal hold terminal, if division module 111 can be also used for end
In holding state by horizontal, during by user's one-handed performance terminal, the finger tangible region on the first touch-screen of one-handed performance side
Singlehanded operable area is divided into, is singlehanded inoperable region by other region divisions on the first touch-screen;By one-handed performance
Finger tangible region is divided into singlehanded operable area on second touch-screen of side, and other regions of the second touch-screen are drawn
It is divided into singlehanded inoperable region, accordingly, mapping block is used for the interaction in singlehanded inoperable region on the first touch-screen
Interface, it is mapped to the singlehanded operable area of the second touch-screen.
In view of in the present embodiment, the probability of the touch-screen of user's mistaken touch second is bigger, in order to reduce misuse rate,
The device of the present embodiment also includes operational control module, for the list on the first touch-screen of the near major general's terminal of mapping block
After the interactive interface in the inoperable region of hand is mapped to the singlehanded operable area of the second touch-screen, if being connect on the second touch-screen
The operation of user is received, then judges whether operation is default effectively operation, if so, then operation is mapped on the first touch-screen
The correspondence position in singlehanded inoperable region, otherwise, ignores operation.
Wherein, default effectively operation includes:Double click operation or the dynamics for the click being calculated based on pressure sensor
Point more than certain threshold value touches operation etc., with the distinguishing operation of single-click operation.
Wherein it is preferred to mapping block when completing mapping process, be able to can not be grasped according to one hand on the first touch-screen
The area for making singlehanded operable area on the area and the second touch-screen in region sets suitable ratio, by the first touch-screen
For the interactive interface in singlehanded inoperable region according to the ratio of setting, scaled down is simultaneously mapped at least one second touch-screen
Singlehanded operable area.
The positive touch modules of the present embodiment have display function, for the ease of user in one-handed performance, can sentence
Finger cut off the hands in the second touch screen operation, which region or which interactive elements on the first touch-screen are clicked, this implementation
Example also includes display control module, in mapping block by the interactive interface in the inoperable region of one hand on the first touch-screen,
After being mapped to the singlehanded operable area of the second touch-screen, if receiving the operation of user on the second touch-screen, control exists
The operation trace of the operation is shown on first touch-screen on the correspondence position in singlehanded inoperable region.
In addition, in another embodiment, also providing a kind of terminal, the terminal can be operated with one hand, including multiple
Touch-screen and controller;Multiple touch-screens include the first touch-screen and the second touch-screen with the first touch-screen different faces;
When controller is used for according to user's one-handed performance terminal, the zone of action of multiple touch-screens in terminal will be multiple
Touch-screen is respectively divided into singlehanded operable area and singlehanded inoperable region;At least one hand on the first touch-screen can not be grasped
Make the interactive interface in region, be mapped to the singlehanded operable area of the second touch-screen.
Using the screen actuation means based on multi-screen of the present embodiment, division module can be based on user's one-handed performance terminal
When, the zone of action of multiple touch-screens in terminal, multiple touch-screens are respectively divided into singlehanded operable area and one hand not
Operable area, the one hand that mapping block is completed on singlehanded inoperable region and the second touch-screen on the first touch-screen can not
The mapping of operating area, can be by singlehanded operable area on the second touch-screen thus during user's one-handed performance terminal
Operation, the control to singlehanded inoperable region on the first touch-screen is completed, when realizing one-handed performance, to the friendship on interactive interface
The complete control of mutual element, simplifies the action of user's one-handed performance terminal, improves the possibility of user's one-handed performance terminal,
The experience of user's one-handed performance terminal is improved, while also improves the utilization rate of the touch-screen of multi-screen terminal.
Obviously, those skilled in the art should be understood that each module of the invention described above or each step can be with general
Computing device realizes that they can be concentrated on single computing device, or be distributed in what multiple computing devices were formed
On network, alternatively, they can be realized with the program code that computing device can perform, it is thus possible to be stored in
Performed in storage medium (ROM/RAM, magnetic disc, CD) by computing device, and in some cases, can be with different from this
The order at place performs shown or described step, either they are fabricated to respectively each integrated circuit modules or by it
In multiple modules or step be fabricated to single integrated circuit module to realize.So the present invention be not restricted to it is any specific
Hardware and software combine.
Above content is to combine specific embodiment further description made for the present invention, it is impossible to assert this hair
Bright specific implementation is confined to these explanations.For general technical staff of the technical field of the invention, do not taking off
On the premise of from present inventive concept, some simple deduction or replace can also be made, should all be considered as belonging to the protection of the present invention
Scope.
Claims (10)
- A kind of 1. screen control method based on multi-screen, it is characterised in that including:During according to user's one-handed performance terminal, the zone of action of multiple touch-screens in the terminal, by the multiple touch-screen It is respectively divided into singlehanded operable area and singlehanded inoperable region;The multiple touch-screen include the first touch-screen and with institute State the second touch-screen of the first touch-screen different faces;At least by the interactive interface in singlehanded inoperable region on first touch-screen, the list of second touch-screen is mapped to Hand operable area.
- 2. the screen control method according to claim 1 based on multi-screen, it is characterised in thatDuring the one-handed performance terminal according to user, the zone of action of multiple touch-screens in the terminal, touched the multiple Touching screen and being respectively divided into singlehanded operable area and singlehanded inoperable region includes:If terminal is in holds state by perpendicular, during by user's one-handed performance terminal, in the tangible area of the first touch-screen bottom Domain is divided into singlehanded operable area, is singlehanded inoperable region by other region divisions on first touch-screen;Institute The tangible region for stating the second touch-screen top is divided into singlehanded operable area, and other regions of second touch-screen are drawn It is divided into singlehanded inoperable region.
- 3. the screen map control method according to claim 2 based on multi-screen, it is characterised in that touched by described first The interactive interface in the upper singlehanded inoperable region of screen is touched, after being mapped to the singlehanded operable area of second touch-screen, is also wrapped Include:If terminal is upside down gripping, by the original singlehanded operable area on first touch-screen and it is singlehanded not Operable area is re-set as singlehanded inoperable region and singlehanded operable area respectively;Original singlehanded operable area on second touch-screen and singlehanded inoperable region are re-set as respectively Singlehanded inoperable region and singlehanded operable area;The interactive interface in the singlehanded inoperable region on first touch-screen after resetting, is mapped to described second Singlehanded operable area on touch-screen.
- 4. the screen control method according to claim 1 based on multi-screen, it is characterised in that described to be grasped according to user is singlehanded When making terminal, the zone of action of multiple touch-screens in the terminal, the multiple touch-screen is respectively divided into one hand to grasp Making region and singlehanded inoperable region includes:If terminal is in holds state by perpendicular, during by user's one-handed performance terminal, in the tangible of the middle part of first touch-screen Region division is singlehanded operable area, by upper and lower two region divisions of singlehanded operable area on first touch-screen For singlehanded inoperable region;Tangible region on the second touch-screen top is divided into singlehanded operable area, by institute State singlehanded operable area and be divided into two operable subregions of one hand, be single by other region divisions of second touch-screen The inoperable region of hand;The interactive interface by singlehanded inoperable region on first touch-screen, it is mapped to the list of second touch-screen Hand operable area includes:By the interactive interface in two inoperable regions of one hand on first touch-screen, it is respectively mapped to described second and touches Two operable subregions of one hand of screen.
- 5. the screen control method based on multi-screen according to claim any one of 1-4, it is characterised in that described by described in The interactive interface in singlehanded inoperable region on first touch-screen, it is mapped to the singlehanded operable area bag of second touch-screen Include:According to singlehanded operable area on the area in singlehanded inoperable region on first touch-screen and second touch-screen The area in domain sets suitable ratio, by the interactive interface in the singlehanded inoperable region on first touch-screen according to setting Ratio, scaled down and the singlehanded operable area for being mapped to second touch-screen.
- 6. the screen control method based on multi-screen according to claim any one of 1-4, it is characterised in that described by institute The interactive interface in singlehanded inoperable region on the first touch-screen is stated, is mapped to the singlehanded operable area of second touch-screen Afterwards, in addition to:If receiving the operation of user on second touch-screen, judge whether the operation is default effectively operation, If so, the operation to be then mapped to the correspondence position in singlehanded inoperable region on first touch-screen, otherwise, ignore institute State operation.
- 7. the screen control method based on multi-screen according to claim any one of 1-4, it is characterised in that described by institute The interactive interface in singlehanded inoperable region on the first touch-screen is stated, is mapped to the singlehanded operable area of second touch-screen Afterwards, if receiving the operation of user on second touch-screen, the singlehanded inoperable region on first touch-screen Correspondence position on show the operation trace of the operation.
- A kind of 8. screen actuation means based on multi-screen, it is characterised in that including:Division module, during for according to user's one-handed performance terminal, the zone of action of multiple touch-screens in the terminal, by institute State multiple touch-screens and be respectively divided into singlehanded operable area and singlehanded inoperable region;The multiple touch-screen includes first Touch-screen and the second touch-screen with the first touch-screen different faces;Mapping block, at least by the interactive interface in singlehanded inoperable region on first touch-screen, being mapped to described The singlehanded operable area of second touch-screen.
- 9. the screen actuation means according to claim 8 based on multi-screen, it is characterised in that the division module, be used for If terminal is in holds state by perpendicular, during by user's one-handed performance terminal, the tangible region in the first touch-screen bottom is drawn It is divided into singlehanded operable area, is singlehanded inoperable region by other region divisions on first touch-screen;Described The tangible region on two touch-screen tops is divided into singlehanded operable area, and other region divisions by second touch-screen are Singlehanded inoperable region;The mapping block, for by the interactive interface in singlehanded inoperable region on first touch-screen, being mapped to described The singlehanded operable area of second touch-screen;Or the division module, state is held by perpendicular if being in for terminal, during by user's one-handed performance terminal, is touched first The tangible region for touching the middle part of screen is divided into singlehanded operable area, by singlehanded operable area on first touch-screen Upper and lower two region divisions are singlehanded inoperable region;Tangible region on the second touch-screen top is divided into list Hand operable area, the singlehanded operable area is divided into two operable subregions of one hand, by second touch-screen Other region divisions be singlehanded inoperable region;The mapping block, described two operable sons of one hand are marked off on second touch-screen for the division module Behind region, by the interactive interface in two inoperable regions of one hand on first touch-screen, described second is respectively mapped to Two operable subregions of one hand of touch-screen.
- 10. a kind of terminal, it is characterised in that including multiple touch-screens and controller;The multiple touch-screen includes first and touched Screen and the second touch-screen with the first touch-screen different faces;When the controller is used for according to user's one-handed performance terminal, the zone of action of multiple touch-screens in the terminal will The multiple touch-screen is respectively divided into singlehanded operable area and singlehanded inoperable region;At least by first touch-screen The interactive interface in the upper inoperable region of one hand, it is mapped to the singlehanded operable area of second touch-screen.
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PCT/CN2017/072294 WO2018040502A1 (en) | 2016-08-31 | 2017-01-23 | Screen control method and apparatus, terminal, and computer storage medium |
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CN108920075A (en) * | 2018-06-26 | 2018-11-30 | 努比亚技术有限公司 | Dual-screen mobile terminal control method, mobile terminal and computer readable storage medium |
CN109309752A (en) * | 2018-07-19 | 2019-02-05 | 奇酷互联网络科技(深圳)有限公司 | The method and device of mobile terminal and one-handed performance screen |
CN109309752B (en) * | 2018-07-19 | 2021-10-22 | 奇酷互联网络科技(深圳)有限公司 | Mobile terminal and method and device for operating screen with one hand |
CN109144386B (en) * | 2018-08-01 | 2021-03-05 | Oppo(重庆)智能科技有限公司 | Touch screen control method and device, storage medium, mobile terminal and terminal accessory |
CN109144386A (en) * | 2018-08-01 | 2019-01-04 | Oppo(重庆)智能科技有限公司 | Touch screen control method, apparatus, storage medium, mobile terminal and end fitting |
CN109343788A (en) * | 2018-09-30 | 2019-02-15 | 维沃移动通信有限公司 | A kind of method of controlling operation thereof and mobile terminal of mobile terminal |
CN109343788B (en) * | 2018-09-30 | 2021-08-17 | 维沃移动通信有限公司 | Operation control method of mobile terminal and mobile terminal |
CN109639890A (en) * | 2018-11-30 | 2019-04-16 | 努比亚技术有限公司 | Double-sided screen operating method, mobile terminal and computer readable storage medium |
CN109683785A (en) * | 2018-12-24 | 2019-04-26 | 维沃移动通信有限公司 | A kind of information processing method and mobile terminal |
CN109743446A (en) * | 2018-12-25 | 2019-05-10 | 努比亚技术有限公司 | Double screen incoming display method, terminal and computer readable storage medium |
CN109743446B (en) * | 2018-12-25 | 2020-12-18 | 南京车链科技有限公司 | Double-screen caller identification method, terminal and computer readable storage medium |
CN109885242A (en) * | 2019-01-18 | 2019-06-14 | 维沃移动通信有限公司 | It is a kind of to execute the method operated and electronic equipment |
CN109901760B (en) * | 2019-01-21 | 2020-07-28 | 维沃移动通信有限公司 | Object control method and terminal equipment |
CN109901760A (en) * | 2019-01-21 | 2019-06-18 | 维沃移动通信有限公司 | A kind of object control method and terminal device |
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