CN103543928A - Software interface display system and method - Google Patents

Software interface display system and method Download PDF

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Publication number
CN103543928A
CN103543928A CN201210235536.2A CN201210235536A CN103543928A CN 103543928 A CN103543928 A CN 103543928A CN 201210235536 A CN201210235536 A CN 201210235536A CN 103543928 A CN103543928 A CN 103543928A
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CN
China
Prior art keywords
handheld device
icon
display
software
current
Prior art date
Application number
CN201210235536.2A
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Chinese (zh)
Inventor
李后贤
李章荣
罗治平
Original Assignee
鸿富锦精密工业(深圳)有限公司
鸿海精密工业股份有限公司
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Application filed by 鸿富锦精密工业(深圳)有限公司, 鸿海精密工业股份有限公司 filed Critical 鸿富锦精密工业(深圳)有限公司
Priority to CN201210235536.2A priority Critical patent/CN103543928A/en
Publication of CN103543928A publication Critical patent/CN103543928A/en

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Abstract

The invention relates to a software interface display system and method. The method comprises the steps that when a handheld device is started or unlocked, an initial state and a corresponding initial display icon of the handheld device are set, and the initial display icon is displayed on a display screen of the handheld device; the current state of the handheld device is detected every other preset time interval; the initial state and the current state of the handheld device are compared, and the deviation direction and the deviation angle of the handheld device relative to the initial state are obtained; a current display icon of the display screen is determined according to the deviation direction and the deviation angle; the determined current display icon is displayed on the display screen. By means of the software interface display system and method, the software interface on the display screen of the handheld device can be automatically updated according to the moving states of the handheld device.

Description

Software interface display system and method

Technical field

The present invention relates to a kind of software interface display system and method, relate in particular to a kind of software interface display system method on handheld device screen.

Background technology

Current smart mobile phone (as iPhone4) all provide touch-screen, and user points or slides up and down finger by horizontally slipping at touch-screen, can show the software interface that different software icon forms.Wherein, the corresponding software shortcut of each software icon, when user clicks a certain software icon, software function corresponding to this software icon will be opened.But touching continually slides easily causes the damage to smart mobile phone touch-screen.

Summary of the invention

In view of above content, be necessary to provide a kind of software interface display system, the mobile status that it can detecting real-time handheld device, upgrades the software interface on handheld device display screen automatically.

In view of above content, be also necessary to provide a kind of software interface display packing, the mobile status that it can detecting real-time handheld device, upgrades the software interface on handheld device display screen automatically.

A kind of software interface display system, this system comprises: original state arranges module, be used for, when handheld device unlatching or release, setting original state and the initial display icon corresponding to this original state of handheld device, this initial display icon is presented on the display screen of handheld device; Detecting module, for every preset interval time, detects the current state of this handheld device; Mobile status determination module, for comparing original state and the current state of this handheld device, obtains this handheld device with respect to offset direction and the deviation angle of original state; Display icon update module, for according to this offset direction and deviation angle, determines the current display icon of display screen; Described display icon update module, also for being presented at this display screen by described definite current display icon.

A kind of software interface display packing, the method comprises: original state setting steps, when handheld device unlatching or release, set original state and the initial display icon corresponding to this original state of handheld device, this initial display icon is presented on the display screen of handheld device; Detecting step, every preset interval time, detects the current state of this handheld device; Mobile status determining step, compares original state and the current state of this handheld device, obtains this handheld device with respect to offset direction and the deviation angle of original state; Display icon step of updating one, according to this offset direction and deviation angle, determines the current display icon of display screen; Display icon step of updating two, is presented at described definite current display icon on this display screen.

Compared to prior art, described software interface display system and method, the mobile status that it can detecting real-time handheld device, upgrades the software interface on handheld device display screen automatically.The software interface that user need not form with finger sliding software icon, only need mobile, upset handheld device, can browse the arrangement situation of software icon all on predefined virtual metope (being software shortcut), allow user more intuitive manner operate, in mode of operation, have more selection, have more elasticity.

Accompanying drawing explanation

Fig. 1 is the applied environment schematic diagram of software interface display system of the present invention.

Fig. 2 is the functional block diagram of software interface display system of the present invention.

Fig. 3 is the process flow diagram of software interface display packing of the present invention.

Fig. 4 is the schematic diagram of the first embodiment of a predefined virtual metope.

Fig. 5 sets the schematic diagram of initial display icon corresponding to handheld device original state in the first embodiment.

Fig. 6 is the viewing area schematic diagram of determining virtual metope in the first embodiment.

Fig. 7 is the schematic diagram of the second embodiment of a predefined virtual metope.

Fig. 8 is the schematic diagram of the 3rd embodiment of a predefined virtual metope.

Main element symbol description

Handheld device ??2 Display screen ??20 Electronic gyroscope ??22 Storer ??23 Software interface display system ??24 Processor ??25 Virtual metope ??30 Viewing area ??32 Original state arranges module ?240 Detecting module ?241 Mobile status determination module ?242 Display icon update module ?243

Embodiment

As shown in Figure 1, be the applied environment schematic diagram of software interface display system of the present invention.In the present embodiment, this software interface display system 24 runs in a handheld device 2.Described handheld device 2 also comprises display screen 20, electronic gyroscope 22, storer 23 and the processor 25 being connected with data line by signal wire.In the present embodiment, described handheld device 2 is smart mobile phone.Described display screen 20 can be resistive touch screen or capacitive touch screen.

Described electronic gyroscope 22 is for opening when handheld device 2 or during release, every preset interval time (as 5 seconds), the status information of detecting handheld device 2, as angle of inclination and vergence direction etc.Described electronic gyroscope 22 can be dual spindle gyroscopes (Two-Axis Gyro), three-axis gyroscope (Three-Axis Gyro) etc.

Described storer 23 is for storing the data such as the program code of described software interface display system 24 and a predefined virtual metope 30.Described virtual metope 30 comprises a plurality of software icon, consults shown in Fig. 4, and in the first embodiment, the array that described virtual metope 30 is 4*14, i.e. 4 row, each 14 row of every row.Wherein, each software icon represents a software shortcut, and when user clicks certain software icon, software function corresponding to this software icon will be opened.Due to the size restriction of the display screen 20 of handheld device 2, all software icon of virtual metope 30 cannot once all be shown on display screen 20, only have part software icon to be shown on display screen 20 at every turn.

Described software interface display system 24, for the mobile status of detecting real-time handheld device 2, is upgraded the software interface on handheld device 2 display screens 20 automatically, and detailed process is described below.

In the present embodiment, described software interface display system 24 can be divided into one or more modules, described one or more module is stored in described storer 23 and is configured to and carried out by one or more processors (the present embodiment is a processor 25), to complete the present invention.For example, consult shown in Fig. 2, described software interface display system 24 is divided into original state module 240, detecting module 241, mobile status determination module 242 and display icon update module 243 is set.The alleged module of the present invention has been the program segment of a specific function, than program, is more suitable in describing the implementation of software in handheld device 2, about the function of each module, will in the process flow diagram of Fig. 3, specifically describe.

As shown in Figure 3, be the process flow diagram of software interface display packing of the present invention.

Step S10, when user opens handheld device 2 or during release, original state arranges original states and the corresponding initial display icon that module 240 is set handheld devices 2, and this initial display icon is presented on display screen 20.When described original state is handheld device 2 unlatchings or release, the initial tilt angle of this handheld device 2 that electronic gyroscope 22 detects and initial tilt direction.This initial display icon is the software icon of virtual metope 30 predeterminated positions, and for example, centered by virtual metope 30 middle positions, the software icon in set and display screen 20 magnitude range is described initial display icon.

For example, consult shown in Fig. 5, suppose that the display screen 20 of handheld device 2 can place 4*4 software icon, initial display icon is software icon corresponding to virtual metope 30 middle position 4*4 array, be the software icon in viewing area 32, comprise A1B6, A1B7, A1B8, A1B9, A2B6, A2B7, A2B8, A2B9, A3B6, A3B7, A3B8, A3B9, A4B6, A4B7, A4B8, A4B9.Wherein, described viewing area 32 refers to the region that needs to be presented at the software icon formation on display screen 20 in virtual metope 30, this viewing area 32 is regions of a dynamic change, along with the movement of handheld device 2, constantly change (big or small constant, position changes), thus different software icon on display screen 20, shown.

Further, original state arranges module 240 the initial tilt angle of this handheld device 2 and initial tilt direction is stored in the apparatus for temporary storage of handheld device.This apparatus for temporary storage includes, but not limited to the entity apparatus such as memory card and virtual storage device.Certainly, described initial tilt angle and initial tilt direction also can be stored in the storer 23 of handheld device 2.

Step S11, detecting module 241 is every preset interval time, obtains the current state of this handheld device 2 that electronic gyroscope 22 detects.Wherein, the current state of this handheld device 2 comprises: the current angle of inclination of this handheld device 2 and current vergence direction.In other embodiments, the state of described handheld device 2 also can be detected by other electronic components, as electronic compass etc.

Step S12, original state and the current state of mobile status determination module 242 these handheld devices 2 of comparison, obtain this handheld device 2 with respect to offset direction and the deviation angle of original state.Particularly, mobile status determination module 242 is compared the initial tilt angle in the current angle of inclination of the handheld device of Real-time Obtaining 2, current vergence direction and apparatus for temporary storage, initial tilt direction, obtains this handheld device 2 with respect to offset direction and the deviation angle of original state.

Step S13, display icon update module 243, according to this offset direction and deviation angle, is determined the current display icon of handheld device 2 display screens 20.

Particularly, display icon update module 243 is obtained predefined virtual metope 30 from the storer 23 of handheld device 2, according to the proportionate relationship of the displacement of the viewing area 32 in the deviation angle setting in advance and virtual metope 30, determine the moving step length of this viewing area 32.For example, preset handheld device 2 with respect to every skew 6 degree of original state, viewing area 32Chao Gai moves Yi Ge unit in offset direction, as is moved to the left row or a line that moves right.When the deviation angle of handheld device 2 reaches default peak excursion angle, viewing area 32 stops mobile.

Then, display icon update module 243 is obtained this viewing area 32 and is moved the software icon in the virtual metope 30 comprising after this moving step length, as the current display icon of display screen 20.

Step S14, display icon update module 243 is presented at described definite current display icon on the display screen 20 of handheld device 2.

For example, consult shown in Fig. 6, suppose that user left and right upset handheld device 2(Z shaft position is constant, along X-Y axial plane, rotate), virtual metope 30 is every row 14 row shown in Fig. 4, display screen 20 singles of handheld device 2 can be browsed 4 row * 4 row software icon, and default peak excursion angle is 30 degree.In the present embodiment, for ease of the software icon on user's operation, browse displays screen 20, the peak excursion angle of a default handheld device 2, be that user wants need the overturn maximum angle of handheld device 2 of all software icon on browsing virtual metope 30, that is user wants the software icon at browsing virtual metope 30 edges, handheld device 2 need be turn to the peak excursion angle of respective direction.

When user surpasses to the angle of certain direction (as left) upset handheld device 2 the peak excursion angle of setting, display icon update module 243 will only show the extrorse software icon of the party.This default peak excursion angle not only can be used as software interface display system 24 and determines the data such as angle of browsing the required adjustment handheld device of each software icon, more can avoid excessive because of handheld device 2 anglecs of rotation, the situation that causes user to be difficult for the displaying contents on browse displays screen 20 occurs.

Consult shown in Fig. 6, viewing area 32 respectively left with the 5 row software icon that move right, just can arrive the edge (shown in dotted line frame) of virtual metope 30.Therefore, can extrapolate to the left or to the right 32 1 step-lengths of moving display area (i.e. row), the angle that at least needs to horizontally rotate to the left or to the right handheld device 2 is peak excursion angle/5=30/5=6 degree.

The offset direction of supposing handheld device 2 is left, and deviation angle represents with α.

If-6 degree < α≤0 degree, judge that viewing area 32 is for software icon corresponding to the central 4*4 array of virtual metope 30;

If-12 degree < α≤-6 degree, judge that viewing area 32 moves left 1 row from virtual metope 30 mediads;

If-18 degree < α≤-12 degree, judge that viewing area 32 moves left 2 row from virtual metope 30 mediads;

If-24 degree < α≤-18 degree, judge that viewing area 32 moves left 3 row from virtual metope 30 mediads;

If-30 degree < α≤-24 degree, judge that viewing area 32 moves left 4 row from virtual metope 30 mediads;

If α≤-30 degree, judges that viewing area 32 moves left 5 row from virtual metope 30 mediads.

In like manner, the offset direction of supposing handheld device 2 is right-hand, and deviation angle represents with α.

If 0 degree≤α <6 degree, judges that viewing area 32 is for software icon corresponding to the central 4*4 array of virtual metope 30;

If 6 degree≤α <12 degree, judge that viewing area 32 is from virtual metope 30 mediads 1 row that move right;

If 12 degree≤α <18 degree, judge that viewing area 32 is from virtual metope 30 mediads 2 row that move right;

If 18 degree≤α <24 degree, judge that viewing area 32 is from virtual metope 30 mediads 3 row that move right;

If 24 degree≤α <30 degree, judge that viewing area 32 is from virtual metope 30 mediads 4 row that move right;

If 30 degree≤α, judges that viewing area 32 is from virtual metope 30 mediads 5 row that move right.

Consulting shown in Fig. 7, is the schematic diagram of virtual metope 30 second embodiment.In a second embodiment, the array that described virtual metope 30 is 14*4, i.e. 14 row, each 4 row of every row.Viewing area 32 makes progress respectively and moves down 5 row software icon, just can arrive the edge (X-axis invariant position rotates along Y-Z axial plane) of virtual metope 30.Therefore, can extrapolate and move up or down 32 1 of viewing areas step-length (being a line), the angle of the handheld device 2 that at least needs to overturn is up or down peak excursion angle/5=30/5=6 degree.The method moving up and down of viewing area 32 with move left and right similarly, do not repeat them here.

It should be noted that, described viewing area 32 is not limited to left, (the first embodiment) to the right, and upwards, the one direction of (the second embodiment) moves downwards.In other embodiments, described viewing area 32 also can be moved towards other directions, as directions such as upper left, lower-left, upper right, bottom rights.

For example, consulting shown in Fig. 8, is the schematic diagram of virtual metope 30 the 3rd embodiment.In the 3rd embodiment, the array that described virtual metope 30 is 8*10, i.e. 8 row, each 10 row of every row.Viewing area 32 according to the upset of handheld device 2 to upper left, the direction such as lower-left, upper right, bottom right moves, moving method can, with reference to the method moving left and right and the method moving up and down, not repeat them here.

Finally it should be noted that, above embodiment is only unrestricted in order to technical scheme of the present invention to be described, although the present invention is had been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can modify or be equal to replacement technical scheme of the present invention, and not depart from the spirit and scope of technical solution of the present invention.

Claims (10)

1. a software interface display system, is characterized in that, this system comprises:
Original state arranges module, for opening when handheld device or during release, setting original state and the initial display icon corresponding to this original state of handheld device, this initial display icon is presented on the display screen of handheld device;
Detecting module, for every preset interval time, detects the current state of this handheld device;
Mobile status determination module, for comparing original state and the current state of this handheld device, obtains this handheld device with respect to offset direction and the deviation angle of original state;
Display icon update module, for according to this offset direction and deviation angle, determines the current display icon of display screen; And
Described display icon update module, also for being presented at this display screen by described definite current display icon.
2. software interface display system as claimed in claim 1, it is characterized in that, described original state arranges module and sets initial display icon and comprise: centered by predefined virtual metope middle position, the software icon within the scope of set and display screen size is described initial display icon.
3. software interface display system as claimed in claim 1, it is characterized in that, described handheld device original state comprises initial tilt angle and the initial tilt direction of handheld device, and described handheld device current state comprises current angle of inclination and the current vergence direction of handheld device.
4. software interface display system as claimed in claim 3, is characterized in that, described display icon update module determines that the current display icon of display screen comprises:
From the storer of handheld device, obtain a predefined virtual metope, this virtual wall face comprises that a plurality of software icon and ,Gai viewing area, a viewing area need to be shown in the software icon on display screen for determining;
According to the proportionate relationship of the displacement of the deviation angle setting in advance and this viewing area, determine the moving step length of this viewing area; And
Obtain this viewing area and move the software icon in the virtual metope comprising after this moving step length, this software icon of obtaining is as the current display icon of display screen.
5. software interface display system as claimed in claim 4, is characterized in that, when the deviation angle of handheld device reaches default peak excursion angle, viewing area stops mobile.
6. a software interface display packing, is characterized in that, the method comprises:
Original state setting steps, when handheld device unlatching or release, sets original state and the initial display icon corresponding to this original state of handheld device, and this initial display icon is presented on the display screen of handheld device;
Detecting step, every preset interval time, detects the current state of this handheld device;
Mobile status determining step, compares original state and the current state of this handheld device, obtains this handheld device with respect to offset direction and the deviation angle of original state;
Display icon step of updating one, according to this offset direction and deviation angle, determines the current display icon of display screen; And
Display icon step of updating two, is presented at described definite current display icon on this display screen.
7. software interface display packing as claimed in claim 6, it is characterized in that, in described original state setting steps, setting initial display icon comprises: centered by predefined virtual metope middle position, the software icon within the scope of set and display screen size is described initial display icon.
8. software interface display packing as claimed in claim 6, it is characterized in that, described handheld device original state comprises initial tilt angle and the initial tilt direction of handheld device, and described handheld device current state comprises current angle of inclination and the current vergence direction of handheld device.
9. software interface display packing as claimed in claim 8, is characterized in that, described display icon step of updating one comprises:
From the storer of handheld device, obtain a predefined virtual metope, this virtual wall face comprises that a plurality of software icon and ,Gai viewing area, a viewing area need to be shown in the software icon on display screen for determining;
According to the proportionate relationship of the displacement of the deviation angle setting in advance and this viewing area, determine the moving step length of this viewing area; And
Obtain this viewing area and move the software icon in the virtual metope comprising after this moving step length, this software icon of obtaining is as the current display icon of display screen.
10. software interface display packing as claimed in claim 9, is characterized in that, when the deviation angle of handheld device reaches default peak excursion angle, viewing area stops mobile.
CN201210235536.2A 2012-07-09 2012-07-09 Software interface display system and method CN103543928A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103795868A (en) * 2014-02-26 2014-05-14 朱印 Mobile terminal screen unlocking method and device and mobile terminal
CN104808928A (en) * 2015-03-02 2015-07-29 百度在线网络技术(北京)有限公司 Method and device for adjusting trigger element in terminal
CN104820536A (en) * 2015-03-02 2015-08-05 百度在线网络技术(北京)有限公司 Method and device for processing trigger element in terminal

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Publication number Priority date Publication date Assignee Title
US20070013708A1 (en) * 2005-07-14 2007-01-18 Bob Barcklay Tiled map display on a wireless device
CN102216882A (en) * 2008-12-10 2011-10-12 索尼爱立信移动通讯有限公司 System and method for modifying a plurality of key input regions based on detected tilt and/or rate of tilt of an electronic device
CN102549539A (en) * 2009-09-25 2012-07-04 汤姆森特许公司 Apparatus and method for grid navigation

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20070013708A1 (en) * 2005-07-14 2007-01-18 Bob Barcklay Tiled map display on a wireless device
CN102216882A (en) * 2008-12-10 2011-10-12 索尼爱立信移动通讯有限公司 System and method for modifying a plurality of key input regions based on detected tilt and/or rate of tilt of an electronic device
CN102549539A (en) * 2009-09-25 2012-07-04 汤姆森特许公司 Apparatus and method for grid navigation

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103795868A (en) * 2014-02-26 2014-05-14 朱印 Mobile terminal screen unlocking method and device and mobile terminal
CN104808928A (en) * 2015-03-02 2015-07-29 百度在线网络技术(北京)有限公司 Method and device for adjusting trigger element in terminal
CN104820536A (en) * 2015-03-02 2015-08-05 百度在线网络技术(北京)有限公司 Method and device for processing trigger element in terminal

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Application publication date: 20140129