CN105824495A - Method for operating mobile terminal with single hand and mobile terminal - Google Patents

Abstract

The invention provides a method for operating a mobile terminal with a single hand, and solves the problems of inconvenience in single-hand operation on a large-screen mobile terminal and low accuracy of a touch position. The mobile terminal is equipped with a touch panel. The method comprises the following steps: detecting sliding operation of a user on the touch panel, and obtaining a sliding direction and a sliding distance of the sliding operation; integrally moving a display interface according to the sliding direction and the sliding distance to move at least part of the display interface out of or into a display region of a screen. According to the method, the display region to be operated is moved to a position which can be touched by the user with the single hand, so that the user can conveniently operate the mobile terminal with the single hand. Compared with the prior art, the method disclosed by the invention has the advantages that the display range of contents on the screen is not required to be reduced, and the operation accuracy is higher.

Description

A kind of method of one-handed performance mobile terminal and mobile terminal

Technical field

The present invention relates to field of mobile terminals, particularly relate to method and the mobile terminal of a kind of one-handed performance mobile terminal.

Background technology

Along with mobile terminal uses more and more universal, the function of mobile terminal also gets more and more, such as: reading, see video, play game etc., therefore, the screen of mobile terminal is the most increasing, by 3.5 cun to rising to 6.5 cun.Along with increasing of mobile terminal function, the place used also gets more and more, be almost full with the every nook and cranny of people's life: use when being seated on sofa, use time road is walked, etc. bus time use, use when stand in public transport and subway, therefore the demand of one-handed performance mobile terminal also gets more and more.

During one-handed performance mobile terminal, for large-size screen monitors mobile terminal, finger is difficult to the top of far-end and the mobile terminal touching the diagonal of grip position, and one-handed performance is extremely difficult.In prior art, in order to solve the demand of one-handed performance mobile terminal, the method used is: arrange one-hand operating format, when detecting that mobile terminal enters one-hand operating format, the display interface of an original display interface scaled down is generated near the position being hold by one hand, display interface after reducing is close to being hold by one hand side, to realize user's one-handed performance.

But, there is a defect in this scheme of prior art: owing to the contact area of finger and screen is relatively big, after display interface reduces, effective touch area of icon or keyboard etc. diminishes, and causes touch location accuracy.

Summary of the invention

The technical problem to be solved is: one-handed performance large-size screen monitors mobile terminal after entering singlehanded pattern, and display interface reduces the problem causing touching accuracy.

In order to solve the problems referred to above, a kind of method embodiments providing one-handed performance mobile terminal, is applied to mobile terminal, and this mobile terminal is provided with Trackpad, the method includes: user is at the slide of described Trackpad in detection, obtains glide direction and the sliding distance of described slide；According to described glide direction and described sliding distance, move integrally display interface with the moving direction mated with described glide direction and the displacement mated with described sliding distance, by the removal of at least part of described display interface or immigration on-screen display (osd) area.

Accordingly, in order to solve the problems referred to above, the embodiment of the present invention additionally provides a kind of mobile terminal, this mobile terminal is provided with Trackpad, including: detector unit, for detecting user's slide at described Trackpad, obtain glide direction and the sliding distance of described slide；First mobile unit, according to described glide direction and described sliding distance, display interface is moved integrally, by the removal of at least part of described display interface or immigration on-screen display (osd) area with the moving direction mated with described glide direction and the displacement mated with described sliding distance.

Embodiments of the invention at the slide of described Trackpad, obtain glide direction and the sliding distance of described slide by detection user；According to described glide direction and described sliding distance, controlling display interface keeps ratio to move integrally, by the removal of at least part of described display interface or immigration on-screen display (osd) area, make display interface to be operated move the position can touched to user's one hand, allow users to convenient one-handed performance mobile terminal.Compared with prior art, it is not necessary to reducing display interface, operation accuracy is higher.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme of the embodiment of the present invention, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural representation of the mobile terminal of one embodiment of the invention；

Fig. 2 is that the Trackpad of the mobile terminal of one embodiment of the invention arranges position view；

Fig. 3 is the flow chart of the method for the one-handed performance mobile terminal of the embodiment of the present invention one；

Fig. 4 be the embodiment of the present invention one one-handed performance mobile terminal method in Initial State Screen viewing area and the position relationship schematic diagram of display interface；

Fig. 5 is the display interface behind the method mobile display interface using the embodiment of the present invention one one-handed performance mobile terminal and the position relationship schematic diagram of on-screen display (osd) area；

Fig. 6 is the flow chart of the method for the one-handed performance mobile terminal of the embodiment of the present invention two；

Fig. 7 is the structural representation of the mobile terminal of the embodiment of the present invention five；

Fig. 8 is the structural representation of the mobile terminal of the embodiment of the present invention six；

Fig. 9 is the structural representation of the mobile terminal of the embodiment of the present invention seven；

Figure 10 is the structural representation of the mobile terminal of the embodiment of the present invention eight.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is a part of embodiment of the present invention rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of protection of the invention.

The mobile terminal that the method for one-handed performance mobile terminal disclosed by the invention is suitable for includes: mobile phone, game machine, panel computer etc., is only illustrated the solution of the present invention as a example by mobile phone in the embodiment of the present invention.

The method using the one-handed performance mobile terminal of the present invention carries out the mobile terminal operated, it is provided with Trackpad, as shown in Figure 1, this mobile terminal includes: primary processor 10, the Trackpad 11 being arranged on this mobile terminal case, and Trackpad 11 is for gathering the slide on touch pad 11 described in user or clicking operation.Above-mentioned Trackpad 11 can be capacitance touch control board, including: touch sensitive layer 111 and touch pad controller 112, wherein, touch sensitive layer 111 is arranged on the outer surface of mobile terminal case, touch pad controller is arranged on the inside of shell, and and the primary processor 10 of mobile terminal electrically connect.The touch point information of the user that touch sensitive layer 111 collects is processed by touch pad controller 112, and described touch point information is sent to primary processor 10, by the Programmable detection user operated on primary processor 10 in the slide of described Trackpad 11 or clicking operation.Wherein, slide includes: glide direction and sliding distance.

Trackpad 11 can be arranged on the side of mobile terminal or position that the back side or bottom etc. are arbitrary to be easily accessible by when being hold by one hand.In order to reduce the complexity of mobile terminal case mould, Trackpad 11 can be arranged on the surface of some mechanical key, such as: is arranged on the Home key surface of mobile phone, the surface of screen locking key；A Trackpad mounting groove position can also be separately provided at mobile terminal case.Fig. 2 gives the structural representation that Trackpad 11 is arranged on the screen locking key surface of mobile terminal 1 side frame.In order to adapt to the hand-held posture of different user, a left Trackpad 11 can be set at the left border of mobile terminal 1, a right Trackpad 11 can also be set at the Right Border of mobile terminal 1, or a Trackpad 11 is respectively set at two frames of mobile terminal 1.

Embodiment one:

A kind of method present embodiments providing one-handed performance mobile terminal, as it is shown on figure 3, include:

Step 300, user is at the slide of described Trackpad in detection, obtains glide direction and the sliding distance of described slide；

Step 320, according to described glide direction and described sliding distance, display interface is moved integrally, by the removal of at least part of described display interface or immigration on-screen display (osd) area with the moving direction mated with described glide direction and the displacement mated with described sliding distance.

As shown in Figure 4, the on-screen display (osd) area 40 of mobile phone refers to show the screen area of content.The display interface of mobile phone refers at the interface that on-screen display (osd) area shows, including: status bar 401 and Application Program Interface 402.Status bar 401 is used for showing generally above screen, for showing the status information of the mobile phones such as time, electricity, signal.In general, status bar is fixed.It is Application Program Interface 402 below status bar 401, for showing current interface content for each application program, it is also possible to be that desktop, system arrange other the display interface such as interface, file, picture.Immersion status bar keeps consistent with currently displaying interface color at present, forms one in the visual effect at whole interface, and the status bar of the present embodiment also includes immersion status bar.

When user is hold by one hand large-screen mobile phone, grips the thumb of hands and be difficult to touch status bar position or grip position diagonal or the display interface of the relative opposite side of grip position.Such as, mobile phone is gripped when user's right hand, it is desirable to during the content in the operation display interface upper left corner, it is impossible to or very difficult one-handed performance completes.Use the method that the present invention provides, as long as finger slides along corresponding direction on a touchpad, it is possible to allowing whole display interface move to finger can be with the position of touch-control.The method of the present invention can detect user's slide on a touchpad, and obtains glide direction and the sliding distance of slide；Then, according to described glide direction and described sliding distance, display interface is moved integrally, by the removal of at least part of described display interface or immigration on-screen display (osd) area with the moving direction corresponding with described glide direction and the displacement corresponding with described sliding distance.Fig. 5 illustrates by detecting user's slide at Trackpad, according to glide direction and sliding distance, the display interface including status bar 401 and Application Program Interface 402 in Fig. 4 is moved integrally to the lower right corner of on-screen display (osd) area, the part in the display interface lower right corner is removed the design sketch of on-screen display (osd) area, only retains the part viewing area at display screen of former display interface.Wherein, region 42 is the white space formed after display interface moves integrally.By moving integrally display interface, both can have been moved by the display interface in the upper left corner can be with the position of one-handed performance to user, and user can operate the content in the upper left corner of display interface after moving easily, will not cause again false triggering because of reducing of display interface.When user wants the content operating the display interface lower right corner, can be slided on the touch pad by finger, the part display interface having moved out on-screen display (osd) area is moved into on-screen display (osd) area again.When being embodied as, by detecting the output signal of Trackpad in real time, detection user is at the slide of described Trackpad, and obtains glide direction and the sliding distance of described slide.The output signal of Trackpad is the coordinate figure of position of touch.When the finger of user starts to touch from the A point of Trackpad, and when sliding into B point, Trackpad can gather the touch location of user's finger and export touch signal in real time.By detecting the output signal of Trackpad in real time, it is possible to obtain the coordinate A (m of the first touch point of Trackpad output₀, n₀) and the coordinate B (m of the second touch point₁, n₁).The first touch point (i.e. A point) and the coordinate figure of the second touch point (i.e. B point) according to Trackpad output determine whether have slide and the glide direction of slide and sliding distance on Trackpad.First, if the distance between above-mentioned first touch point and the second touch point, more than the distance preset, such as: 2 coordinate unit, it is determined that have slide on Trackpad.Wherein, the distance between above-mentioned first touch point and the second touch point is then the sliding distance of this slide.Then, with the first touch point corresponding to this slide as zero, set up the second plane right-angle coordinate of Trackpad, second touch point is obtained coordinate figure and carries out Coordinate Conversion, obtain second touch point coordinate figure in the second plane right-angle coordinate (m ', n '), the direction of slide is determined according to second touch point coordinate figure in the second plane right-angle coordinate.Whether detection user operates on the touch pad is slide; and after slide having been detected; the method of the glide direction and sliding distance that obtain this slide is not limited to the scheme disclosed in the embodiment of the present invention; any can determine whether slide according to the coordinate figure between 2 o'clock; and the method for the glide direction and sliding distance calculating slide can be regarded as the equivalent of this programme, broadly fall into the protection category of the application.Additionally; for some Trackpad, its output signal includes: slide or clicking operation, and the slide signal exported includes glide direction and sliding distance; belong to method disclosed by the invention in the realization of different physical supports, also should regard the category that the present invention protects as.In step 320, described according to described glide direction with described sliding distance, display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, by in the step of the removal of at least part of described display interface or immigration on-screen display (osd) area, it is preset with the first matching relationship of glide direction and the moving direction of display interface, and is preset with the second matching relationship of sliding distance and the displacement of display interface.By matching relationship, displacement and the moving direction of display interface can be calculated, it is possible to control described display interface entirety and move described displacement to described moving direction, by the removal of at least part of described display interface or immigration on-screen display (osd) area.

For moving direction and first matching relationship of glide direction of display interface, can set with the operating habit arranging position and user of combination of touch control plate.The method using the present invention, can detect the slide of two-dimensional space, and determines the glide direction of two-dimensional space, therefore, it can the first matching relationship setting up display interface between any moving direction and the glide direction of slide of two-dimensional space.In the present embodiment, the reference standard of the moving direction of display interface is exemplified as: with screen center as initial point, arranges plane right-angle coordinate；The moving direction of display interface includes: the positive negative direction of transverse axis, the positive negative direction of the longitudinal axis, first quartile pointing direction, the second quadrant pointing direction, third quadrant pointing direction, fourth quadrant pointing direction.The first quartile pointing direction of the present embodiment may be considered origin and points to the direction of any one point coordinates in first quartile, and other quadrants are in like manner.Certainly, this area to technical staff is it is also contemplated that other the reference standard of moving direction describing display interface, and the mode of definition moving direction, all should belong to the category of present invention protection.

When Trackpad is arranged on mobile phone battery cover or front panel, the moving direction of display interface is identical with the glide direction of slide.When glide direction points to transverse axis positive direction, display interface moves to transverse axis positive direction；When glide direction points to transverse axis negative direction, display interface moves to transverse axis negative direction；When glide direction points to longitudinal axis positive direction, display interface moves to longitudinal axis positive direction；When glide direction points to longitudinal axis negative direction, display interface moves to longitudinal axis negative direction；When glide direction points to first quartile direction, display interface moves to first quartile direction；When glide direction points to the second quadrantal heading, display interface moves to the second quadrantal heading；When glide direction points to third quadrant direction, display interface moves to third quadrant direction；When glide direction points to fourth quadrant direction, display interface moves to fourth quadrant direction.When Trackpad is arranged on mobile phone both sides frame, the moving direction of display interface coupling corresponding with the glide direction of slide.Now, the coordinate system of Trackpad is vertical with the coordinate system of display interface, if using the center of Trackpad as zero, set up plane right-angle coordinate, it is transverse axis positive direction that left Trackpad is perpendicularly oriented to the direction of screen, it is transverse axis negative direction that right Trackpad is perpendicularly oriented to the direction of screen, the sensing of vertical coordinate is consistent with the vertical coordinate direction of the coordinate system of display interface, then the first matching relationship of the moving direction of the glide direction of slide and display interface can be: when glide direction points to the transverse axis positive direction of its place coordinate system, display interface moves to the transverse axis positive direction of its place coordinate system；When glide direction points to the transverse axis negative direction of its place coordinate system, display interface moves to the transverse axis negative direction of its place coordinate system；When glide direction points to the longitudinal axis positive direction of its place coordinate system, display interface moves to the longitudinal axis positive direction of its place coordinate system；When glide direction points to the longitudinal axis negative direction of its place coordinate system, display interface moves to the longitudinal axis negative direction of its place coordinate system；When glide direction points to the first quartile direction of its place coordinate system, display interface moves to the first quartile direction of its place coordinate system；When glide direction points to the second quadrantal heading of its place coordinate system, display interface moves to the second quadrantal heading of its place coordinate system；When glide direction points to the third quadrant direction of its place coordinate system, display interface moves to the third quadrant direction of its place coordinate system；When glide direction points to the fourth quadrant direction of its place coordinate system, display interface moves to the fourth quadrant direction of its place coordinate system.

The second matching relationship of the displacement of display interface and the sliding distance of slide is set up generally according to the resolution of display interface and the touch point resolution of Trackpad.Wherein, transverse axis maximum coordinates scope T in the plane right-angle coordinate of the corresponding aforementioned Trackpad of the touch-control resolution of the touch area of Trackpad_xWith longitudinal axis maximum coordinates scope T_y, for T_y*T_x；Transverse axis maximum coordinates scope S in the plane right-angle coordinate of the corresponding aforementioned display interface of the resolution of display interface_xWith longitudinal axis maximum coordinates scope S_y, for S_y*S_x.Be the equal proportion in the case of of amplifying for the resolution of display interface and the touch-control resolution of Trackpad, i.e. S_y/T_yEqual to S_x/T_xSituation, determine the displacement of display interface according to the resolution of display interface and the ratio of resolution of Trackpad and the sliding distance of slide.Not the equal proportion in the case of of amplifying for the resolution of display interface and the touch-control resolution of Trackpad, i.e. S_y/T_yIt is not equal to S_x/T_xSituation, then determine the displacement of display interface according to the touch area of Trackpad and the resolution proportionate relationship of display interface and the sliding distance of slide, glide direction, particularly as follows: △ Y_s=△ Y_T*(S_y/T_y)；△X_s=△ X_T*(S_x/T_x)；Wherein, △ X_TWith △ Y_TFor slide at the displacement along Trackpad coordinate system horizontally and vertically direction, △ X_sWith △ Y_sFor display interface displacement along horizontally and vertically direction in the coordinate system of display interface.

After moving integrally display interface, a part of display interface still shows in the on-screen display (osd) area of mobile terminal, and another part display interface to be moved to screen display area overseas, meanwhile, in on-screen display (osd) area, there will be white space.The display interface of mobile phone shows at on-screen display (osd) area with the form of view, and mobile phone carries out interface display according to the level of view, and bottom level view can be covered by top level view.In embodiments of the invention, realize moving integrally of display interface by creating multilevel viewing.A fixing interlayer view is created on the display interface view upper strata of screen；Create a moveable top level view on described interlayer view upper strata, described top level view is the duplicate layer of described display interface view；Set up the incidence relation of described top level view and the touch object of described display interface view；According to described glide direction and described sliding distance, move integrally described top level view with the moving direction mated with described glide direction with the displacement mated with described sliding distance, by the removal of at least part of described display interface or immigration on-screen display (osd) area.

When being embodied as, creating an interlayer view, the white space formed after display interface moves on the upper strata of display interface view, the position that this interlayer view shows is fixed, and irremovable, is not affected by the touch-control of user；Creating a top level view object on this interlayer view, for showing the display interface after moving, the display position of this top level view can change.This top level view to as if the duplicate layer of display interface view, its display content is identical with display interface view, and difference is that two views display positions are different.Then, the incidence relation of the touch object of this top level view and display interface view is set up；Finally, described glide direction according to slide and described sliding distance, by the display position of described top level view along described glide direction, show after mobile described sliding distance, by the removal of at least part of described top level view or immigration on-screen display (osd) area.After top level view moves, the white space that exposed portion interlayer view shows, the white space that interlayer view shows can be filled background colour and be shown, it is also possible to show content set in advance.

Set up the incidence relation of the touch object of this top level view and display interface view, including the display position according to described top level view, set up the incidence relation of the touch object of the touch object of display content in this top level view and the display content of display interface view.By setting up the incidence relation of the touch object of this top level view and display interface view, when operating contents displayed on interface in user's top level view after movement, the touch screen of mobile terminal obtains the touch object that user's touch location on the touchscreen is corresponding, and this touch location reflects the touch object in the display interface after user wants the movement operated.According to this top level view set up and the incidence relation of the touch object of display interface view, and the touch location that the user obtained is in top level view, it may be determined that the position of the display interface view of user operation, and then realize the operation to mobile terminal.

The present invention at the slide of described Trackpad, obtains glide direction and the sliding distance of described slide by detection user；According to described glide direction and described sliding distance, move integrally display interface with the moving direction mated with described glide direction with the displacement mated with described sliding distance, by the removal of at least part of described display interface or immigration on-screen display (osd) area.Display interface to be operated is moved the position can touched to user's one hand, allows users to one-handed performance mobile terminal easily.Compared with prior art, it is not necessary to reducing screen display content, operation accuracy is higher.

Embodiment two:

Based on embodiments of the invention one, as shown in Figure 6, the present embodiment the most also includes:

Step 310, determines that according to described slide the position of described Trackpad, described Trackpad include being respectively arranged on the left Trackpad of described mobile terminal both sides frame and right Trackpad；Position according to described Trackpad determines that the hand-held posture of user is left-handed or right hand gripping.

For large-screen mobile phone, during user's one-handed performance, generally use thumb that the button on the frame of mobile phone, Trackpad are operated.It is arranged on the operation that the Trackpad of mobile phone both sides frame is touched, it may be determined that the hand-held posture of user by detection.When left side Trackpad is touched, the hand-held posture of user is left-handed, and when right side Trackpad is touched, the hand-held posture of user is that the right hand grips.

When the hand-held posture determining user is left-handed, above-mentioned steps 320 farther includes:

Step 3201, with screen center as initial point, arranges plane right-angle coordinate；

Step 3202, according to described glide direction and described sliding distance, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is removed on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis negative sense, the second quadrant or the pointing direction of third quadrant；Or,

Step 3203, according to described glide direction and described sliding distance, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is moved into on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis forward, first quartile or the pointing direction of fourth quadrant.

The first quartile pointing direction of the present embodiment may be considered origin and points to the direction of any one point coordinates in first quartile, and other quadrants are in like manner.

For example, when the hand-held posture of user is left-handed, by the finger that slides on the touch pad, display interface entirety is made to move down along screen, make the part removal on-screen display (osd) area below display interface, above display interface, move to the singlehanded manipulable position of user's left hand；Or, by the finger that slides on the touch pad, make display interface entirety move up along screen, make the part removal on-screen display (osd) area above display interface, below display interface, move to the singlehanded manipulable position of user's left hand；Or, by the finger that slides on the touch pad, making display interface entirety move to screen left, make display interface left-half remove on-screen display (osd) area, display interface right half part moves to the singlehanded manipulable position of user's left hand；Or, by the finger that slides on the touch pad, making display interface entirety move to screen upper left side along screen, make the left top half of display interface remove on-screen display (osd) area, display interface lower right half moves to the singlehanded manipulable position of user's left hand；Or, by the finger that slides on the touch pad, making display interface entirety move to screen lower left along screen, make display interface lower left half remove on-screen display (osd) area, display interface upper right half moves to the singlehanded manipulable position of user's left hand.In like manner, when user to operate the part display interface of removal on-screen display (osd) area, by the finger that slides the most on the touch pad, it is possible to the display interface of removal on-screen display (osd) area is moved into on-screen display (osd) area again.

When the hand-held posture determining user is right hand gripping, above-mentioned steps 320 farther includes:

Step 3205, with screen center as initial point, arranges plane right-angle coordinate；

Step 3206, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is removed on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis forward, first quartile or the pointing direction of fourth quadrant；Or,

Step 3207, moves integrally described display interface with the moving direction mated with described glide direction and the displacement mated with described sliding distance, and at least part of described display interface is moved into on-screen display (osd) area.

The moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis negative sense, the second quadrant or the pointing direction of third quadrant.

For example, when the hand-held posture of user is right hand gripping, by the finger that slides on the touch pad, display interface entirety is made to move down along screen, make the part removal on-screen display (osd) area below display interface, above display interface, move to the singlehanded manipulable position of user；Or, by the finger that slides on the touch pad, make display interface entirety move up along screen, make the part removal on-screen display (osd) area above display interface, below display interface, move to the singlehanded manipulable position of user；Or, by the finger that slides on the touch pad, making display interface entirety move to screen right along screen, make display interface right half part remove on-screen display (osd) area, display interface left-half moves to the singlehanded manipulable position of user；Or, by the finger that slides on the touch pad, making display interface entirety move to the top right of screen along screen, make display interface upper right half remove on-screen display (osd) area, display interface lower left half moves to the singlehanded manipulable position of user；Or, by the finger that slides on the touch pad, making display interface entirety move to screen lower right along screen, make display interface lower right half remove on-screen display (osd) area, display interface upper left is partly partially moved to the singlehanded manipulable position of user.In like manner, when user to operate the part display interface of removal on-screen display (osd) area, by the finger that slides the most on the touch pad, it is possible to the display interface of removal on-screen display (osd) area is moved into on-screen display (osd) area again.

Determining that the moving direction of display interface and the detailed description of the invention of displacement see the embodiment of the present invention one, here is omitted.

Being determined by the hand-held posture of user, further determine that the moving direction of display interface according to the direction of hand-held posture and slide, display interface moves more accurate.

Embodiment three:

Based on embodiments of the invention one and embodiment two, the method for the one-handed performance mobile terminal that another preferred embodiment of the present invention provides, after step 320, also include:

Step 340, the record described display interface of part repeatedly removes each position after on-screen display (osd) area, the number of times that statistics each position described occurs, when the number of times of any position in each position described is more than or equal to threshold number, arranging described any position is default location.Wherein, threshold number is rule of thumb arranged, such as 5 times.

Step 360, when detecting user in the clicking operation of described Trackpad, moves integrally display interface, moves at least part of described display interface to described default location.

In step 320, according to described glide direction and described sliding distance, when moving integrally display interface, need the display position of top level view to be adjusted, on the basis of former display position, along described glide direction, mobile described sliding distance, determine the display position of the top level view after moving, i.e. display interface moves to the position of on-screen display (osd) area, and shows.In the present embodiment, in the display position according to the top level view determined after moving, after the display interface after display is mobile, record the position of described display interface removal on-screen display (osd) area in step 340.Through record after a while, the position of the display interface removal on-screen display (osd) area of record is analyzed, the default location of display interface removal on-screen display (osd) area is set according to analysis result.Such as: if the position of N continuous time display interface removal on-screen display (osd) area is identical, then the position of this display interface removal on-screen display (osd) area is set to display interface removal or moves into the default location of on-screen display (osd) area.Wherein, N is positive integer, can rule of thumb arrange, such as N=5.

When detecting user in the clicking operation of described Trackpad, move integrally display interface, at least part of described display interface is moved to the default location of on-screen display (osd) area.This default location determines according to the use habit of user, decreases the operating procedure at user's mobile display interface, improves operating efficiency, improves Consumer's Experience simultaneously.

Another preferred embodiment arranging default location in above-mentioned steps 340 is: the record described display interface of part repeatedly removes the multiple positions after on-screen display (osd) area, when in the plurality of position, the dispersion degree of at least position of predetermined number is in threshold range, arrange described in the center of at least position of predetermined number be default location.According to the multiple described position of record, obtain the coordinate figure of the multiple positions after described display interface removal on-screen display (osd) area, and store；The coordinate figure of the position after the described display interface removal on-screen display (osd) area that screening has stored, when the dispersion degree of the most N number of position is in default threshold range, calculates the center position coordinates of above-mentioned N number of coordinate figure；Above-mentioned center position coordinates is set to the coordinate figure that display interface moves to the default location of on-screen display (osd) area.Wherein, predetermined number N is positive integer, can rule of thumb arrange, such as 5.The dispersion degree calculating above-mentioned N number of position can use method of the prior art to realize, and as calculated the standard deviation of each position and other positions, standard deviation represents the dispersion degree of each position, and standard deviation is the biggest, and dispersion degree is the biggest.

The present embodiment is by recording the position at user's mobile display interface, it is calculated analytically, the efficiency of one-handed performance mobile terminal can be improve according to the operating habit of user mobile display interface rapidly to a certain position of on-screen display (osd) area, improves Consumer's Experience.By screening the coordinate figure of the display interface removal on-screen display (osd) area position of up-to-date storage, the existing display interface of real-time update moves to the default location of on-screen display (osd) area, can mobile display interface more accurately, effectively adapt to the situation of the display interface shift position change brought owing to user operation habits changes.

Preferably, in order to save memory space, can arrange quantity M that the described display interface of storage moves to the coordinate figure of on-screen display (osd) area position, M is the positive integer more than N.When the quantity of the coordinate figure of storage is more than M, according to the time sequencing of storage, delete the coordinate figure of oldest stored.

Further, in order to improve the accuracy that display interface moves, above-mentioned steps 340 can also include, the described display interface screening up-to-date storage moves to the coordinate figure of on-screen display (osd) area position, when wherein P coordinate figure deviation is more than preset value, delete other coordinate figures stored, retain a display interface removal of up-to-date storage or move into the coordinate figure of on-screen display (osd) area position.Wherein, the P positive integer more than or equal to 1.This preset value is arranged, for example, it is possible to be set to 1/3rd of the maximum coordinates scope of display interface according to the resolution of display interface.

In another preferred embodiment based on the present embodiment, when detecting user in the clicking operation of described Trackpad, mobile status according to display interface, move integrally display interface, at least part of described display interface is moved to the default location of on-screen display (osd) area, or moves integrally whole described display interface in on-screen display (osd) area.If display interface is in mobile status, then when detecting user in the clicking operation of described Trackpad, move integrally whole described display interface in on-screen display (osd) area；If display interface is in non-moving state, then, when detecting user in the clicking operation of described Trackpad, moves integrally display interface, at least part of described display interface is moved to the default location of on-screen display (osd) area.By judging that the position of display interface may determine that whether display interface is in mobile status.

Embodiment four:

Any one embodiment based on embodiments of the invention one and two, the method for the one-handed performance mobile terminal that the present embodiment provides, when the described display interface of part removes on-screen display (osd) area, after step 320, also include:

Step 330, when user being detected in the clicking operation of described Trackpad, moves integrally whole described display interface in on-screen display (osd) area.

Trackpad exports touching signals in real time according to the touch of user.Some Trackpad, when user's finger clicks on Trackpad, Trackpad can export click signal, by the click signal of detection Trackpad output, can detect user's clicking operation on the touch pad..When user being detected in the clicking operation of described Trackpad, move integrally whole described display interface in screen, will move to initial position by display interface.By the present embodiment, can display interface after quick-recovery moves soon to original state, it is simple to user operation, improve the mobile efficiency of display interface.

Embodiment five:

Correspondingly, the invention also discloses a kind of mobile terminal, as it is shown in fig. 7, this mobile terminal is provided with Trackpad, including:

Detector unit 700, for detecting user's slide at described Trackpad, obtains glide direction and the sliding distance of described slide；

First mobile unit 720, for according to described glide direction and described sliding distance, display interface is moved integrally, by the removal of at least part of described display interface or immigration on-screen display (osd) area with the moving direction mated with described glide direction and the displacement mated with described sliding distance.

The specific implementation of detector unit 700 and the first mobile unit 720 sees embodiment of the method one, and here is omitted.

The present invention at the slide of described Trackpad, obtains glide direction and the sliding distance of described slide by detection user；According to described glide direction and described sliding distance, display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, by the removal of at least part of described display interface or immigration on-screen display (osd) area, display interface to be operated is moved the position can touched to user's one hand, allows users to one-handed performance mobile terminal easily.Compared with prior art, it is not necessary to reducing screen display content, operation accuracy is higher.

Embodiment six:

On the basis of embodiment five, alternatively, mobile terminal also includes: hand-held posture determines unit 710, as shown in Figure 8.Described hand-held posture determines unit 710, and for determining the position of described Trackpad according to described slide, described Trackpad includes being respectively arranged on the left Trackpad of described mobile terminal both sides frame and right Trackpad；And,

Position according to described Trackpad determines that the hand-held posture of user is left-handed or right hand gripping.

Further, when the hand-held posture determining user is left-handed, described first mobile unit 720 is used for:

With screen center as initial point, plane right-angle coordinate is set；

According to described glide direction and described sliding distance, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is removed on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis negative sense, the second quadrant or the pointing direction of third quadrant；

Or according to described glide direction and described sliding distance, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is moved into on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis forward, first quartile or the pointing direction of fourth quadrant.

Further, when the hand-held posture determining user is right hand gripping, described first mobile unit 720 is used for:

With screen center as initial point, plane right-angle coordinate is set；

According to described glide direction and described sliding distance, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is removed on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis forward, first quartile or the pointing direction of fourth quadrant；

Or according to described glide direction and described sliding distance, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is moved into on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis negative sense, the second quadrant or the pointing direction of third quadrant.Wherein, described glide direction and described moving direction are provided with matching relationship, and described sliding distance and described displacement are provided with matching relationship.By pre-setting matching relationship, detect glide direction and sliding distance, it is possible to obtain displacement and moving direction.

When being embodied as, described first mobile unit 720 is further used for: create a fixing interlayer view on the display interface view upper strata of screen；Create a moveable top level view on described interlayer view upper strata, described top level view is the duplicate layer of described display interface view；Set up the incidence relation of described top level view and the touch object of described display interface view；According to described glide direction and described sliding distance, move integrally described top level view, by the removal of at least part of described display interface or immigration on-screen display (osd) area.

Being determined by the hand-held posture of user, further determine that the moving direction of display interface according to the direction of hand-held posture and slide, display interface moves more accurate.

Based on aforesaid mobile terminal embodiment, the another preferred embodiment of mobile terminal of the present invention also includes: the second mobile unit, for when user being detected in the clicking operation of described Trackpad, moving integrally whole described display interface in on-screen display (osd) area, clicking operation herein is for clicking or double-click or three hitting.

By the present embodiment, can display interface after quick-recovery moves soon to original state, it is simple to user operation, improve the mobile efficiency of display interface.

Based on the embodiment shown in earlier figures 7 or Fig. 8, the another preferred embodiment of mobile terminal of the present invention also includes:

Acquiescence shift position arranges unit, for recording each position after the described display interface of part repeatedly removes on-screen display (osd) area, and the number of times that statistics each position described occurs；When the number of times of any position in each position described is more than or equal to threshold number, arranging described any position is default location；

Described first mobile unit 720, is additionally operable to, when user being detected in the clicking operation of described Trackpad, move integrally display interface, at least part of described display interface moves to the default location of on-screen display (osd) area.

The acquiescence shift position of the present embodiment is arranged in another preferred embodiment of unit, and acquiescence shift position arranges unit, for recording the multiple positions after the described display interface of part repeatedly removes on-screen display (osd) area；When in the plurality of position, the dispersion degree of at least position of predetermined number is in threshold range, arrange described in the center of at least position of predetermined number be default location.

Based on the present embodiment, in the further embodiment of the present invention, described second mobile unit, it is additionally operable to when user being detected in the clicking operation of described Trackpad, according to the mobile status of display interface, move integrally whole described display interface in on-screen display (osd) area.

The present embodiment is by recording the position at user's mobile display interface, it is calculated analytically, the efficiency of one-handed performance mobile terminal can be improve according to the operating habit of user mobile display interface rapidly to a certain position of on-screen display (osd) area, improves Consumer's Experience.

Embodiment seven

Fig. 9 is the block diagram of the mobile terminal of another embodiment of the present invention.Mobile terminal 900 shown in Fig. 9 includes: at least one processor 901, memorizer 902, at least one network interface 904 and other user interfaces 903.Each assembly in mobile terminal 900 is coupled by bus system 905.It is understood that bus system 905 is for realizing the connection communication between these assemblies.Bus system 905, in addition to including data/address bus, also includes power bus, controls bus and status signal bus in addition.But for the sake of understanding explanation, in fig .9 various buses are all designated as bus system 905.

Wherein, user interface 903 can include display, keyboard or pointing device (such as, mouse, trace ball (trackball), touch-sensitive plate, touch screen or Trackpad etc..The present embodiment is by the slide of Trackpad detection user, and obtains glide direction and the sliding distance of the slide of user.

The memorizer 902 being appreciated that in the embodiment of the present invention can be volatile memory or nonvolatile memory, maybe can include volatibility and nonvolatile memory.Wherein, nonvolatile memory can be read only memory (Read-OnlyMemory, ROM), programmable read only memory (ProgrammableROM, PROM), Erasable Programmable Read Only Memory EPROM (ErasablePROM, EPROM), Electrically Erasable Read Only Memory (ElectricallyEPROM, EEPROM) or flash memory.Volatile memory can be random access memory (RandomAccessMemory, RAM), and it is used as External Cache.nullBy exemplary but be not restricted explanation，The RAM of many forms can use，Such as static RAM (StaticRAM，SRAM)、Dynamic random access memory (DynamicRAM，DRAM)、Synchronous Dynamic Random Access Memory (SynchronousDRAM，SDRAM)、Double data speed synchronous dynamic RAM (DoubleDataRateSDRAM，DDRSDRAM)、Enhancement mode Synchronous Dynamic Random Access Memory (EnhancedSDRAM，ESDRAM)、Synchronized links dynamic random access memory (SynchlinkDRAM，And direct rambus random access memory (DirectRambusRAM SLDRAM)，DRRAM).The memorizer 902 of system and method described herein is intended to include but not limited to these and the memorizer of other applicable type any.

In some embodiments, memorizer 902 stores following element, executable module or data structure, or their subset, or their superset: operating system 9021 and application program 9022.

Wherein, operating system 9021, comprise various system program, such as ccf layer, core library layer, driving layer etc., be used for realizing various basic business and processing hardware based task.Application program 7022, comprises various application program, and such as media player (MediaPlayer), browser (Browser) etc., be used for realizing various applied business.The program realizing embodiment of the present invention method may be embodied in application program 9022.

In embodiments of the present invention, by calling program or the instruction of memorizer 902 storage, concrete, can be program or the instruction of storage in application program 9022.Detected the slide of user by the Trackpad in user interface 903, and obtain glide direction and the sliding distance of the slide of user.Processor 901, according to described glide direction and described sliding distance, moves integrally display interface with the moving direction mated with glide direction and the displacement mated with sliding distance, by the removal of at least part of described display interface or immigration on-screen display (osd) area.

The method part that the invention described above embodiment discloses can apply in processor 901, or is realized by processor 901.Processor 901 is probably a kind of IC chip, has the disposal ability of signal.During realizing, each step of said method can be completed by the instruction of the integrated logic circuit of the hardware in processor 901 or software form.Above-mentioned processor 901 can be general processor, digital signal processor (DigitalSignalProcessor, DSP), special IC (ApplicationSpecificIntegratedCircuit, ASIC), ready-made programmable gate array (FieldProgrammableGateArray, FPGA) or other PLDs, discrete gate or transistor logic, discrete hardware components.Can realize or perform disclosed each method, step and the logic diagram in the embodiment of the present invention.The processor etc. that general processor can be microprocessor or this processor can also be any routine.Hardware decoding processor can be embodied directly in conjunction with the step of the method disclosed in the embodiment of the present invention to have performed, or combine execution by the hardware in decoding processor and software module and complete.Software module may be located at random access memory, flash memory, read only memory, in the storage medium that this area such as programmable read only memory or electrically erasable programmable memorizer, depositor is ripe.This storage medium is positioned at memorizer 902, and processor 901 reads the matching relationship of the glide direction in memorizer 902 and moving direction, the matching relationship that sliding distance and displacement set, and completes the step of said method in conjunction with its hardware.

It is understood that embodiments described herein can realize by hardware, software, firmware, middleware, microcode or a combination thereof.nullHardware is realized，Processing unit can be implemented in one or more special IC (ApplicationSpecificIntegratedCircuits，ASIC)、Digital signal processor (DigitalSignalProcessing，DSP)、Digital signal processing appts (DSPDevice，DSPD)、Programmable logic device (ProgrammableLogicDevice，PLD)、Field programmable gate array (Field-ProgrammableGateArray，FPGA)、General processor、Controller、Microcontroller、Microprocessor、In other electronic unit performing herein described function or a combination thereof.

Software is realized, the techniques described herein can be realized by the module (such as process, function etc.) performing function described herein.Software code is storable in performing in memorizer and by processor.Memorizer can within a processor or realize outside processor.

Alternatively, before moving integrally display interface, processor 901 also obtains and is respectively arranged on the left Trackpad of described mobile terminal both sides frame and right Trackpad, determines that according to the slide of Trackpad the hand-held posture of user is that left and right grips or the right hand grips.

After determining left-handed, with screen center as initial point, plane right-angle coordinate is set.Then, according to described glide direction and described sliding distance, display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is removed on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis negative sense, the second quadrant or the pointing direction of third quadrant；Or according to described glide direction and described sliding distance, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is moved into on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis forward, first quartile or the pointing direction of fourth quadrant.

After determining left-handed, with screen center as initial point, plane right-angle coordinate is set.Then, according to described glide direction and described sliding distance, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is removed on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis forward, first quartile or the pointing direction of fourth quadrant.Or according to described glide direction and described sliding distance, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is moved into on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis negative sense, the second quadrant or the pointing direction of third quadrant.

Alternatively, display interface is moved mainly realized by figure layer.Processor 901 creates a fixing interlayer view on the display interface view upper strata of screen, then creates a moveable top level view on described interlayer view upper strata, and described top level view is the duplicate layer of described display interface view；Then, the incidence relation of described top level view and the touch object of described display interface view is set up；Finally according to described glide direction and described sliding distance, described top level view is moved integrally, by the removal of at least part of described display interface or immigration on-screen display (osd) area with the moving direction mated with described glide direction and the displacement mated with described sliding distance.

Mobile terminal 900 is capable of each process that in previous embodiment, mobile terminal realizes, and for avoiding repeating, repeats no more here.By the present embodiment, display interface to be operated is moved the position can touched to user's one hand, allows users to one-handed performance mobile terminal easily.Compared with prior art, it is not necessary to reducing screen display content, operation accuracy is higher.

Embodiment eight

Figure 10 is the structural representation of the mobile terminal of the embodiment of the present invention eight.Specifically, the mobile terminal in Figure 10 can be mobile phone, panel computer, personal digital assistant (PersonalDigitalAssistant, PDA) or vehicle-mounted computer etc..

Mobile terminal in Figure 10 includes radio frequency (RadioFrequency, RF) circuit 1010, memorizer 1020, input block 1030, display unit 1040, processor 1060, voicefrequency circuit 1070, WiFi (WirelessFidelity) module 1080 and power supply 1090.

Wherein, input block 1030 can be used for receiving numeral or the character information of user's input, and produces the signal input relevant with the user setup of mobile terminal and function control.Specifically, in the embodiment of the present invention, this input block 1030 can include contact panel 1031.Contact panel 1031, also referred to as touch screen, user can be collected thereon or neighbouring touch operation (such as user uses any applicable object such as finger, stylus or adnexa operation on contact panel 1031), and drive corresponding attachment means according to formula set in advance.Optionally, contact panel 1031 can include touch detecting apparatus and two parts of touch controller.Wherein, the touch orientation of touch detecting apparatus detection user, and detect the signal that touch operation brings, transmit a signal to touch controller；Touch controller receives touch information from touch detecting apparatus, and is converted into contact coordinate, then gives this processor 1060, and can receive order that processor 1060 sends and be performed.Furthermore, it is possible to use the polytypes such as resistance-type, condenser type, infrared ray and surface acoustic wave to realize contact panel 1031.Except contact panel 1031, input block 1030 can also include other input equipments 1032, and other input equipments 1032 can include but not limited to Trackpad.Trackpad can be located at front panel the latter's bonnet of mobile terminal, it is also possible to is located at frame.

Wherein, display unit 1040 can be used for showing the information inputted by user or the information being supplied to user and the various menu interfaces of mobile terminal.Display unit 1040 can include display floater 1041, optionally, the form such as LCD or Organic Light Emitting Diode (OrganicLight-EmittingDiode, OLED) can be used to configure display floater 1041.

It should be noted that, contact panel 1031 can cover display floater 1041, formed and touch display screen, when this touch display screen detects thereon or after neighbouring touch operation, send processor 1060 to determine the type of touch event, display screen on provide corresponding visual output according to the type of touch event touching with preprocessor 1060.

Touch display screen and include Application Program Interface viewing area and conventional control viewing area.The arrangement mode of this Application Program Interface viewing area and this conventional control viewing area does not limit, can be arranged above and below, left-right situs etc. can distinguish the arrangement mode of two viewing areas.This Application Program Interface viewing area is displayed for the interface of application program.Each interface can comprise the interface elements such as icon and/or the widget desktop control of at least one application program.This Application Program Interface viewing area can also be the empty interface not comprising any content.This conventional control viewing area is for showing the control that utilization rate is higher, such as, and the application icon etc. such as settings button, interface numbering, scroll bar, phone directory icon.

Wherein processor 1060 is the control centre of mobile terminal, utilize various interface and the various piece of the whole mobile phone of connection, it is stored in the software program in first memory 1021 and/or module by running or performing, and call the data being stored in second memory 1022, perform the various functions of mobile terminal and process data, thus mobile terminal is carried out integral monitoring.Optionally, processor 1060 can include one or more processing unit.

In embodiments of the present invention, Trackpad obtains the slide of user's input, by calling the matching relationship of the described glide direction in the software program and/or module and/or this second memory 1022 stored in this first memory 1021 and described moving direction, described sliding distance and the matching relationship of described displacement, processor 1060 is for obtaining glide direction and the sliding distance of described slide, and move integrally display interface with the moving direction mated with described glide direction and the displacement mated with described sliding distance, by the removal of at least part of described display interface or immigration on-screen display (osd) area.

Alternatively, before moving integrally display interface, the slide of the user that processor 1060 receives according to the left Trackpad and right Trackpad that are respectively arranged on described mobile terminal both sides frame, determine that the hand-held posture of user is left-handed or right hand gripping.When the hand-held posture determining user is left-handed, processor 1060, with screen center as initial point, arranges plane right-angle coordinate.Then, display interface is moved integrally with the moving direction mated with glide direction and the displacement mated with sliding distance, at least part of described display interface is removed on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis negative sense, the second quadrant or the pointing direction of third quadrant.Or move integrally display interface with the moving direction mated with glide direction and the displacement mated with sliding distance, at least part of described display interface is moved into on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis forward, first quartile or the pointing direction of fourth quadrant.

When the hand-held posture determining user is right hand gripping, processor 1060, with screen center as initial point, arranges plane right-angle coordinate.Then, display interface is moved integrally with the moving direction mated with glide direction and the displacement mated with sliding distance, at least part of described display interface is removed on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis forward, first quartile or the pointing direction of fourth quadrant.Or according to described glide direction and described sliding distance, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is moved into on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis negative sense, the second quadrant or the pointing direction of third quadrant.

Alternatively, the movement of display interface is mainly realized by figure layer.Processor 1060 creates a fixing interlayer view on the display interface view upper strata of screen, then creates a moveable top level view on described interlayer view upper strata, and described top level view is the duplicate layer of described display interface view.Then, the incidence relation of described top level view and the touch object of described display interface view is set up；Finally according to described glide direction and described sliding distance, described top level view is moved integrally, by the removal of at least part of described display interface or immigration on-screen display (osd) area with the moving direction mated with described glide direction and the displacement mated with described sliding distance.By the corresponding relation between figure layer and figure layer, when the touch object clicked in top level view, it is automatically associated to the touch object of display interface view, thus completes the execution of corresponding actions.

Further, after moving integrally display interface, the position repeatedly resting on same position, according to the position stopped after user repeatedly mobile display interface, is defined as default location by processor.

Another kind is achieved in that, sets the position of an applicable one-handed performance in advance, this position is defined as default location.When detecting user in the clicking operation of described Trackpad, move integrally described display interface, at least part of described display interface is moved to described default location.

After display interface moves, when user being detected in the clicking operation of described Trackpad, move integrally whole described display interface in on-screen display (osd) area, quickly display interface can be restPosed, improve Consumer's Experience.

The present embodiment is compared with prior art, it is not necessary to reduce screen display content, and display interface moves integrally the position of applicable one-handed performance, and one-handed performance accuracy is higher.

Those of ordinary skill in the art are it is to be appreciated that combine the unit of each example and the algorithm steps that the embodiments described herein describes, it is possible to being implemented in combination in of electronic hardware or computer software and electronic hardware.These functions perform with hardware or software mode actually, depend on application-specific and the design constraint of technical scheme.Professional and technical personnel can use different methods to realize described function to each specifically should being used for, but this realization is it is not considered that beyond the scope of this invention.

Those skilled in the art is it can be understood that arrive, for convenience and simplicity of description, the specific works process of the system of foregoing description, device and unit, it is referred to the corresponding process in preceding method embodiment, does not repeats them here.

In embodiment provided herein, it should be understood that disclosed apparatus and method, can realize by another way.Such as, device embodiment described above is only schematically, such as, the division of described unit, be only a kind of logic function to divide, actual can have when realizing other dividing mode, the most multiple unit or assembly can in conjunction with or be desirably integrated into another system, or some features can ignore, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be the INDIRECT COUPLING by some interfaces, device or unit or communication connection, can be electrical, machinery or other form.

The described unit illustrated as separating component can be or may not be physically separate, and the parts shown as unit can be or may not be physical location, i.e. may be located at a place, or can also be distributed on multiple NE.Some or all of unit therein can be selected according to the actual needs to realize the purpose of the present embodiment scheme.

It addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, it is also possible to be that unit is individually physically present, it is also possible to two or more unit are integrated in a unit.

If described function is using the form realization of SFU software functional unit and as independent production marketing or use, can be stored in a computer read/write memory medium.Based on such understanding, part or the part of this technical scheme that prior art is contributed by technical scheme the most in other words can embody with the form of software product, this computer software product is stored in a storage medium, including some instructions with so that a computer equipment (can be personal computer, server, or the network equipment etc.) perform all or part of step of method described in each embodiment of the present invention.And aforesaid storage medium includes: the various media that can store program code such as USB flash disk, portable hard drive, ROM, RAM, magnetic disc or CDs.

The above; being only the detailed description of the invention of the present invention, but protection scope of the present invention is not limited thereto, any those familiar with the art is in the technical scope that the invention discloses; change can be readily occurred in or replace, all should contain within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with scope of the claims.

Each embodiment in this specification all uses the mode gone forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, and between each embodiment, identical similar part sees mutually.For mobile terminal embodiment, due to itself and embodiment of the method basic simlarity, so describe is fairly simple, relevant part sees the part of embodiment of the method and illustrates.

Claims (16)

1. the method for an one-handed performance mobile terminal, it is characterised in that this mobile terminal is provided with Trackpad, the method includes:

User is at the slide of described Trackpad in detection, obtains glide direction and the sliding distance of described slide；

According to described glide direction and described sliding distance, move integrally display interface with the moving direction mated with described glide direction and the displacement mated with described sliding distance, by the removal of at least part of described display interface or immigration on-screen display (osd) area.

2. the method for claim 1, it is characterized in that, described according to described glide direction with described sliding distance, display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, before the step of the removal of at least part of described display interface or immigration on-screen display (osd) area, also include:

Determine that according to described slide the position of described Trackpad, described Trackpad include being respectively arranged on the left Trackpad of described mobile terminal both sides frame and right Trackpad；

Position according to described Trackpad determines that the hand-held posture of user is left-handed or right hand gripping.

3. method as claimed in claim 2, it is characterized in that, when the hand-held posture determining user is left-handed, described according to described glide direction with described sliding distance, move integrally display interface with the moving direction mated with described glide direction and the displacement mated with described sliding distance, the step of the removal of at least part of described display interface or immigration on-screen display (osd) area included:

With screen center as initial point, plane right-angle coordinate is set；

According to described glide direction and described sliding distance, display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is removed on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis negative sense, the second quadrant or the pointing direction of third quadrant；

Or according to described glide direction and described sliding distance, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is moved into on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis forward, first quartile or the pointing direction of fourth quadrant.

4. method as claimed in claim 2, it is characterized in that, when the hand-held posture determining user is right hand gripping, described according to described glide direction with described sliding distance, move integrally display interface with the moving direction mated with described glide direction and the displacement mated with described sliding distance, the step of the removal of at least part of described display interface or immigration on-screen display (osd) area included:

With screen center as initial point, plane right-angle coordinate is set；

According to described glide direction and described sliding distance, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is removed on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis forward, first quartile or the pointing direction of fourth quadrant；

Or according to described glide direction and described sliding distance, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is moved into on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis negative sense, the second quadrant or the pointing direction of third quadrant.

5. the method for claim 1, it is characterized in that, described according to described glide direction with described sliding distance, move integrally display interface with the moving direction mated with described glide direction and the displacement mated with described sliding distance, the step of the removal of at least part of described display interface or immigration on-screen display (osd) area included:

A fixing interlayer view is created on the display interface view upper strata of screen；

Create a moveable top level view on described interlayer view upper strata, described top level view is the duplicate layer of described display interface view；

Set up the incidence relation of described top level view and the touch object of described display interface view；

According to described glide direction and described sliding distance, move integrally described top level view with the moving direction mated with described glide direction and the displacement mated with described sliding distance, by the removal of at least part of described display interface or immigration on-screen display (osd) area.

6. the method for claim 1, it is characterized in that, described according to described glide direction with described sliding distance, move integrally display interface with the moving direction mated with described glide direction and the displacement mated with described sliding distance, also include after the step of at least part of described display interface removal on-screen display (osd) area:

When user being detected in the clicking operation of described Trackpad, move integrally whole described display interface in on-screen display (osd) area.

7. the method for claim 1, it is characterized in that, described according to described glide direction with described sliding distance, move integrally display interface with the moving direction mated with described glide direction and the displacement mated with described sliding distance, also include after the step of at least part of described display interface removal on-screen display (osd) area:

The record described display interface of part repeatedly removes each position after on-screen display (osd) area, the number of times that statistics each position described occurs；

When the number of times of any position in each position described is more than or equal to threshold number, arranging described any position is default location；

When detecting user in the clicking operation of described Trackpad, move integrally described display interface, at least part of described display interface is moved to described default location.

8. the method for claim 1, it is characterized in that, described according to described glide direction with described sliding distance, move integrally display interface with the moving direction mated with described glide direction and the displacement mated with described sliding distance, also include after the step of at least part of described display interface removal on-screen display (osd) area:

The record described display interface of part repeatedly removes the multiple positions after on-screen display (osd) area；

When in the plurality of position, the dispersion degree of at least position of predetermined number is in threshold range, arrange described in the center of at least position of predetermined number be default location；

When detecting user in the clicking operation of described Trackpad, move integrally described display interface, at least part of described display interface is moved to described default location.

9. a mobile terminal, it is characterised in that this mobile terminal is provided with Trackpad, including:

Detector unit, for detecting user's slide at described Trackpad, obtains glide direction and the sliding distance of described slide；

First mobile unit, for according to described glide direction and described sliding distance, display interface is moved integrally, by the removal of at least part of described display interface or immigration on-screen display (osd) area with the moving direction mated with described glide direction and the displacement mated with described sliding distance.

10. mobile terminal as claimed in claim 9, it is characterized in that, also including: hand-held posture determines unit, for determining the position of described Trackpad according to described slide, described Trackpad includes being respectively arranged on the left Trackpad of described mobile terminal both sides frame and right Trackpad；And,

Position according to described Trackpad determines that the hand-held posture of user is left-handed or right hand gripping.

11. mobile terminals as claimed in claim 10, it is characterised in that when the hand-held posture determining user is left-handed, described first mobile unit is used for:

With screen center as initial point, plane right-angle coordinate is set；

According to described glide direction and described sliding distance, display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is removed on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis negative sense, the second quadrant or the pointing direction of third quadrant；

Or according to described glide direction and described sliding distance, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is moved into on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis forward, first quartile or the pointing direction of fourth quadrant.

12. mobile terminals as claimed in claim 10, it is characterised in that when the hand-held posture determining user is right hand gripping, described first mobile unit is used for:

With screen center as initial point, plane right-angle coordinate is set；

According to described glide direction and described sliding distance, described display interface is moved integrally with the moving direction mated with described glide direction and the displacement mated with described sliding distance, at least part of described display interface is removed on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis forward, first quartile or the pointing direction of fourth quadrant；

Or according to described glide direction and described sliding distance, move integrally described display interface, at least part of described display interface is moved into on-screen display (osd) area, the moving direction of described display interface includes with described initial point as starting point, points to the positive negative sense of the longitudinal axis, transverse axis negative sense, the second quadrant or the pointing direction of third quadrant.

13. mobile terminals as claimed in claim 9, it is characterised in that described first mobile unit is additionally operable to:

A fixing interlayer view is created on the display interface view upper strata of screen；

Create a moveable top level view on described interlayer view upper strata, described top level view is the duplicate layer of described display interface view；

Set up the incidence relation of described top level view and the touch object of described display interface view；

According to described glide direction and described sliding distance, move integrally described top level view with the moving direction mated with described glide direction and the displacement mated with described sliding distance, by the removal of at least part of described display interface or immigration on-screen display (osd) area.

14. mobile terminals as claimed in claim 9, it is characterised in that described mobile terminal also includes:

Second mobile unit, for when user being detected in the clicking operation of described Trackpad, moves integrally whole described display interface in on-screen display (osd) area.

15. mobile terminals as claimed in claim 9, it is characterised in that described mobile terminal also includes:

Acquiescence shift position arranges unit, for recording each position after the described display interface of part repeatedly removes on-screen display (osd) area, and the number of times that statistics each position described occurs；When the number of times of any position in each position described is more than or equal to threshold number, arranging described any position is default location；

Described first mobile unit, is additionally operable to, when user being detected in the clicking operation of described Trackpad, move integrally display interface, at least part of described display interface moves to the default location of on-screen display (osd) area.

16. mobile terminals as claimed in claim 9, it is characterised in that described mobile terminal also includes:

Acquiescence shift position arranges unit, for recording the multiple positions after the described display interface of part repeatedly removes on-screen display (osd) area；When in the plurality of position, the dispersion degree of at least position of predetermined number is in threshold range, arrange described in the center of at least position of predetermined number be default location；

When detecting user in the clicking operation of described Trackpad, move integrally described display interface, at least part of described display interface is moved to described default location.