CN105446517A - Portable electronic device and user interface operation method - Google Patents
Portable electronic device and user interface operation method Download PDFInfo
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- CN105446517A CN105446517A CN201410440625.XA CN201410440625A CN105446517A CN 105446517 A CN105446517 A CN 105446517A CN 201410440625 A CN201410440625 A CN 201410440625A CN 105446517 A CN105446517 A CN 105446517A
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Abstract
The invention discloses a portable electronic device and a user interface operation method. The portable electronic device comprises a display unit, a touch sensing module and a processing unit, wherein the display unit displays a user interface; the user interface comprises a plurality of display objects which are displayed in a three-dimensional way; each display object independently comprises a first display surface and a second display surface, wherein the first display surface roughly faces towards a user; the touch sensing module senses a dragging event corresponding to one touch object; and the processing unit generates the user interface and independently switches the first display surface of the display object into the second display surface in a rotation way according to the dragging direction of the dragging event to change the configuration of the display object. Therefore, the portable electronic device with a limited display area can execute more complex operations and more functions, so that an operation picture is clean and simple to improve the use experience of the user.
Description
Technical field
The present invention relates to a kind of portable electron device and user's interface operation method, particularly relate to portable electron device and user's interface operation method that a kind of tow direction according to towing event changes the configuration of the display object shown in three-dimensional mode in a rotative pattern.
Background technology
Because the development of electronic installation is rapid, in daily life, user performs different functions frequently by electronic installation, but in key frame interface common at present, user can only perform the switching of the different page usually, or in special icon, perform the function of specific program, when user is for some conventional function enable, for example, copy, the function such as deletion, usually just must can reach above-mentioned object, by the inconvenience causing user to use by complicated gesture.Therefore, when user runs into above-mentioned situation, how to provide preferred method of operating to promote the problem that the experience of user is required solution at present.
Summary of the invention
For solving the problem, one embodiment of the invention provides a kind of portable electron device, comprises a display unit, a touch-control sensing module and a processing unit.Display unit shows a user interface.User interface comprises the multiple display object shown in three-dimensional mode.Display object comprises one first display surface and one second display surface respectively.First display surface is substantially towards user.The induction of touch-control sensing module corresponds to a towing event of a touching object.Processing unit produces user interface, and switches to the second display surface to change the configuration of display object in a rotative pattern the first display surface of display object respectively according to the tow direction of towing event.
Another embodiment of the present invention provides a kind of user's interface operation method, be applicable to a portable electron device, step comprises: show a user interface, wherein user interface comprises the multiple display object shown in three-dimensional mode, and display object comprises one first display surface and one second display surface respectively, the first display surface is substantially towards user; Induction corresponds to a towing event of a touching object; And switch to the second display surface to change the configuration of display object in a rotative pattern the first display surface of display object according to a tow direction of towing event.
Thus, more complicated operation and more function can be performed in the portable electron device of display limited area, and make operation screen more succinct clean, to improve the experience of user.
Accompanying drawing explanation
Fig. 1 is the block scheme of the portable electron device of display according to one embodiment of the invention;
Fig. 2 A, Fig. 2 B, Fig. 2 C are the schematic diagram of the user interface operation of display according to one embodiment of the invention;
Fig. 3 is the schematic diagram of the user interface operation of display according to another embodiment of the present invention;
Fig. 4 is the schematic diagram at the user interface of display according to one embodiment of the invention;
Fig. 5 is the process flow diagram of the user interface operation method of display according to one embodiment of the invention.
Description of reference numerals in above-mentioned accompanying drawing is as follows:
100 ~ portable electron device
110 ~ touch-control sensing module
120 ~ processing unit
130 ~ display unit
200 ~ user interface
205 ~ touching object
210,220,230 ~ display object
211,221,231 ~ the first display surfaces
212,222,232 ~ the second display surfaces
251,252,253 ~ end points
301 ~ both deckles
303 ~ track
S501, S502, S503 ~ steps flow chart
θ ~ angle
Embodiment
Other scopes that system for the present invention and method are suitable for are by obvious in following provided detailed description.It must be appreciated following detailed description and specific embodiment, when proposing the example embodiment about portable electron device and user's interface operation method, only as the object described and and be not used to limit the scope of the invention.
Fig. 1 is the block scheme of the portable electron device of display according to one embodiment of the invention.As shown in Figure 1, portable electron device 100 comprises touch-control sensing module 110, processing unit 120 and a display unit 130.Touch-control sensing module 110 responds to the towing event corresponding to a touching object.Wherein, above-mentioned touching object can be the finger of user, pointer or arbitrarily can the object of enable touch-control sensing electrode.Processing unit 120 produces user interface, and switches to the second display surface to change the configuration of display object in a rotative pattern the first display surface of display object respectively according to the tow direction of towing event.Display unit 130 shows a user interface.User interface comprises the multiple display object shown in three-dimensional mode.
Fig. 2 A, Fig. 2 B, Fig. 2 C are the schematic diagram of the user interface operation of display according to one embodiment of the invention.As shown in Figure 2 A, user interface 200 comprises the multiple display object 210,220,230 shown in three-dimensional mode.Display object 210,220,230 has multiple display surface respectively, its distinguish the first corresponding display surface 211,221,231 substantially towards user.Wherein, multiple display surfaces of display object 210,220,230 have different icons respectively, different icons in order to enable different application program or operating function, but also can be blank display surface (namely can not enable any application program or operating function).It should be noted that display object only presents in cube mode in this embodiment, but also can be the polyhedron of other types, not as limit.
Refer to Fig. 2 B.As shown in Figure 2 B, touch-control sensing module 110 senses that the finger 205 of user touches screen in end points 251, and enable drag kick is to end points 252.Now, processing unit 120 notes down the track of drag kick, and according to the direction of track and length rotational display object 210,220,230 simultaneously, namely the direction of track is the direction of rotation.For example, when the direction of track be from left to right time, display object 210,220,230 display is positioned at another display surface on the former display surface left side.And user also can set the ratio of the length of track and the angle of rotation according to demands of individuals.For example, when the length of track is 4 centimeters, be 90 degree by the angle initialization of rotation, or when the length of track is 6 centimeters, the angle of rotation it is 135 degree, by that analogy.In addition, during rotational display object 210,220,230, display object 210,220,230 meeting display section first display surface 211,221,231 and second display surface 212,222,232, and the display area of the first display surface 211,221,231 and second display surface 212,222,232 is changed according to the length of track.For example, when the length of track is 1 centimeter, the display area of the first display surface 211,221,231 is 75%, and the display area of the second display surface 212,222,232 is 25%.In other words, as shown in Figure 2 C, when the length of track is 4 centimeters (when finger 205 tows to end points 253), display unit 130 only shows the second display surface 212,222,232, and does not show the first display surface 211,221,231.
In addition, when user interface is different, icon may correspond to different functions.For example, when user interface is key frame interface, icon corresponds to different application programs.And when user interface is application program, icon corresponds to different operating functions.
Refer to Fig. 3.Fig. 3 is the schematic diagram of the user interface operation of display according to another embodiment of the present invention.As shown in Figure 3, processing unit 120 also determines the sense of rotation of display object 210,220,230 according to track 303 and the angle theta of both deckles 301.For example, when track 303 is less than 45 degree with the angle theta of both deckles 301, display object 210,220,230 rotates (namely from left to right or from right to left) with the direction of level.Otherwise when track 303 is equal to or greater than 45 degree with the angle theta of both deckles 301, display object 210,220,230 rotates (namely from the bottom to top or from top to bottom) with vertical direction.Wherein, horizontal direction rotates and refers to using an axle vertical with both deckles 301 as turning axle, and rotates with counterclockwise or clockwise direction according to the direction of track.And vertical direction rotation refers to using an axle parallel with both deckles 301 as turning axle, and rotate with counterclockwise or clockwise direction according to the direction of track.
In addition, user also performs more complicated operating function by the rotation in conjunction with horizontal direction and vertical direction.For example, when user interface is key frame interface, user changes the different application program of display by the rotation of horizontal direction, and by the enable deletion of rotation of vertical direction or the application program corresponding to the first display surface 211,221,231 of renewal display object 210,220,230.When user interface is little artist, user selects the operating functions such as pen, erasing rubber, spray gun, straight line by the rotation of horizontal direction, and selects the thickness of pen, the size of erasing rubber, the thickness of straight line even to copy operating functions such as sticking by the rotation of vertical direction.It should be noted that above-mentioned operating function only embodiment exemplarily, not as limit.
Refer to Fig. 4.Fig. 4 is the schematic diagram at the user interface of display according to one embodiment of the invention.As shown in Figure 4, user interface 400 comprises the display object 450 shown in planar fashion and the display object 210,220,230 shown in three-dimensional mode simultaneously.When user is by the touching enable drag kick of object, the only spinning movement of enable display object 210,220,230, and can't any action of enable display object 450.
According to another embodiment of the present invention, the touch position of processing unit 120 also corresponding to towing event changes the configuration of display object 210,220,230.For example, when the initial touch position of the event of towing is positioned in display object 210, processing unit 120 changes separately the configuration of display object 210 according to the track of drag kick.Or, when the initial touch position of towing event is positioned at blank space or a given area at user interface, namely, when initial touch position is not positioned in any one of display object 210,220,230, processing unit changes the configuration of display object 210,220,230 according to the track of drag kick simultaneously.In addition, user also can select no matter whether initial touch position is positioned in display object 210,220,230 directly switches to the second display surface according to the track of drag kick by the first display surface of all display object in a rotative pattern.
Fig. 1 please be coordinate to consult Fig. 5.Fig. 5 is the process flow diagram of the user interface operation method of display according to one embodiment of the invention.In step S501, portable electron device 100 shows a user interface.Wherein, user interface comprises the multiple display object shown in three-dimensional mode, and above-mentioned display object has multiple display surface respectively, its distinguish the first corresponding display surface substantially towards user.Multiple display surfaces of display object have different icons respectively, and different icons in order to enable different application program or operating function, but also can be blank display surface (namely can not enable any application program or operating function).In step S502, touch-control sensing module 110 responds to the towing event corresponding to a touching object.Wherein, above-mentioned touching object can be the finger of user, pointer or arbitrarily can the object of enable touch-control sensing electrode.In step S503, the first display surface of display object switches to the second display surface to change the configuration of display object according to a tow direction of towing event by processing unit 120 in a rotative pattern.
According to one embodiment of the invention, when touch-control sensing module 110 senses that the finger 205 of user touches screen in end points 251, and enable drag kick to end points 252 time, processing unit 120 notes down the track of drag kick, and according to the direction of track and length rotational display object simultaneously, namely the direction of track is the direction of rotation.For example, when the direction of track be from left to right time, display object display is positioned at another display surface on the former display surface left side.Wherein, user also can set the ratio of the length of track and the angle of rotation according to demands of individuals.For example, when the length of track is 4 centimeters, it is 90 degree by the angle initialization of rotation.In addition, during rotational display object, display object can change the display area of the first display surface and the second display surface according to the length of track.But when the length of track is 4 centimeters, display unit 130 only shows the second display surface, and does not show the first display surface.
According to another embodiment of the present invention, when user interface is different, icon may correspond to different functions.For example, when user interface is key frame interface, icon corresponds to different application programs.And when user interface is application program, icon corresponds to different operating functions.
According to another embodiment of the present invention, processing unit 120 also determines the sense of rotation of display object according to track and the angle of both deckles.For example, when track is less than 45 degree with the angle of both deckles, display object rotates with the direction of level.Otherwise when track is equal to or greater than 45 degree with the angle of both deckles, display object rotates with vertical direction.
In addition, user also performs more complicated operating function by the rotation in conjunction with horizontal direction and vertical direction.For example, when user interface is key frame interface, user shows different application programs by the rotation of horizontal direction to change, and by the enable deletion of rotation of vertical direction or the application program corresponding to the first display surface 211,221,231 of renewal display object 210,220,230.When user interface is little artist, user selects the operating functions such as pen, erasing rubber, spray gun, straight line by the rotation of horizontal direction, and selects the thickness of pen, the size of erasing rubber, the thickness of straight line even to copy operating functions such as sticking by the rotation of vertical direction.It should be noted that above-mentioned operating function only embodiment exemplarily, not as limit.
According to another embodiment of the present invention, the touch position of processing unit 120 more corresponding to towing event changes the configuration of display object 210,220,230.For example, when the initial touch position of the event of towing is positioned in display object 210, processing unit 120 changes separately the configuration of display object 210 according to the track of drag kick.Or, when the initial touch position of towing event is positioned at blank space or a given area at user interface, namely, when initial touch position is not positioned in any one of display object 210,220,230, processing unit changes the configuration of display object 210,220,230 according to the track of drag kick simultaneously.In addition, user also can select no matter whether initial touch position is positioned in display object 210,220,230 directly switches to the second display surface according to the track of drag kick by the first display surface of all display object in a rotative pattern.
In sum, the portable electron device proposed according to one embodiment of the invention and user's interface operation method, by the kenel of display element presented in three-dimensional mode, user shows different application programs by simple drag kick, also can according to the touch position of the drag kick of different directions or drag kick, further enable different operating function.Thus, more complicated operation and more function can be performed in the portable electron device of display limited area, and make operation screen more succinct clean, to improve the experience of user.
The above embodiments describe with enough details and make those of ordinary skill in the art implement disclosed system and method by above-mentioned description; and it must be appreciated; not departing from spirit of the present invention and scope; when doing a little change and retouching, the scope that therefore protection scope of the present invention ought define depending on the claim of enclosing is as the criterion.
Claims (20)
1. a portable electron device, comprising:
One display unit, show a user interface, wherein above-mentioned user interface comprises multiple display object, and above-mentioned display object shows in three-dimensional mode, and comprise one first display surface and one second display surface respectively, and above-mentioned first display surface is substantially towards user;
One touch-control sensing module, induction corresponds to a towing event of a touching object; And
One processing unit, produce above-mentioned user interface, and switch to above-mentioned second display surface to change the configuration of above-mentioned display object in a rotative pattern above-mentioned first display surface corresponding to the one of above-mentioned display object according to a tow direction of above-mentioned towing event.
2. portable electron device as claimed in claim 1, wherein above-mentioned first display surface and above-mentioned second display surface correspond to one first application program and one second application program respectively.
3. portable electron device as claimed in claim 1, wherein above-mentioned first display surface and above-mentioned second display surface correspond to one first operating function and one second operating function respectively.
4. portable electron device as claimed in claim 1, wherein above-mentioned processing unit more determines a sense of rotation of above-mentioned display object according to an angle of above-mentioned tow direction and both deckle.
5. portable electron device as claimed in claim 4, wherein:
When above-mentioned angle is less than a first retainer, above-mentioned display object rotates in the mode being parallel to above-mentioned both deckles according to above-mentioned tow direction; And
When above-mentioned angle is greater than above-mentioned first retainer, above-mentioned display object according to above-mentioned tow direction to rotate perpendicular to the mode of above-mentioned both deckles.
6. portable electron device as claimed in claim 1, wherein in the process of configuration changing above-mentioned display object, above-mentioned first display surface of above-mentioned user's interface display part and above-mentioned second display surface of part.
7. portable electron device as claimed in claim 1, wherein above-mentioned user interface also comprises the multiple display object shown in planar fashion.
8. portable electron device as claimed in claim 1, wherein above-mentioned processing unit more selects the one of above-mentioned display object according to the touch position corresponding to above-mentioned towing event.
9. portable electron device as claimed in claim 8, wherein when above-mentioned touch position is not positioned at above-mentioned display object on any one, above-mentioned processing unit more changes the configuration of all above-mentioned display object simultaneously according to above-mentioned touch position and above-mentioned tow direction.
10. portable electron device as claimed in claim 1, wherein above-mentioned first display surface of remaining above-mentioned display object more switches to above-mentioned second display surface to change the configuration of above-mentioned display object according to the above-mentioned tow direction of above-mentioned towing event by above-mentioned processing unit in a rotative pattern.
11. 1 kinds of user's interface operation methods, be applicable to a portable electron device, step comprises:
Show a user interface, wherein above-mentioned user interface comprises multiple display object, and above-mentioned display object shows in three-dimensional mode, and comprises one first display surface and one second display surface respectively, and above-mentioned first display surface is substantially towards user;
Induction corresponds to a towing event of a touching object; And
Above-mentioned first display surface of above-mentioned display object switches to above-mentioned second display surface to change the configuration of above-mentioned display object by a tow direction according to above-mentioned towing event in a rotative pattern.
12. user's interface operation methods as claimed in claim 11, wherein above-mentioned first display surface and above-mentioned second display surface correspond to one first application program and one second application program respectively.
13. user's interface operation methods as claimed in claim 11, wherein above-mentioned first display surface and above-mentioned second display surface correspond to one first operating function and one second operating function respectively.
14. user's interface operation methods as claimed in claim 11, the step wherein changing the configuration of above-mentioned display object also comprises:
A sense of rotation of above-mentioned display object is determined according to an angle of above-mentioned tow direction and both deckle.
15. user's interface operation methods as claimed in claim 14, wherein:
When above-mentioned angle is less than a first retainer, above-mentioned display object rotates in the mode being parallel to above-mentioned both deckles according to above-mentioned tow direction; And
When above-mentioned angle is greater than above-mentioned first retainer, above-mentioned display object according to above-mentioned tow direction to rotate perpendicular to the mode of above-mentioned both deckles.
16. user's interface operation methods as claimed in claim 11, wherein in the process of configuration changing above-mentioned display object, above-mentioned user interface is above-mentioned first display surface in display section and above-mentioned second display surface of part.
17. user's interface operation methods as claimed in claim 11, wherein above-mentioned user interface also comprises the multiple display object shown in planar fashion.
18. user's interface operation methods as claimed in claim 11, the step wherein changing the configuration of above-mentioned display object also comprises the one selecting above-mentioned display object according to the touch position corresponding to above-mentioned towing event.
19. user's interface operation methods as claimed in claim 18, wherein when above-mentioned touch position is not positioned at above-mentioned display object on any one, more change the configuration of all above-mentioned display object simultaneously according to above-mentioned touch position and above-mentioned tow direction.
20. user's interface operation methods as claimed in claim 11, the step wherein changing the configuration of above-mentioned display object also comprises and switches to above-mentioned second display surface to change the configuration of above-mentioned display object in a rotative pattern above-mentioned first display surface of remaining above-mentioned display object according to the above-mentioned tow direction of above-mentioned towing event.
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| US20100064259A1 (en) * | 2008-09-11 | 2010-03-11 | Lg Electronics Inc. | Controlling method of three-dimensional user interface switchover and mobile terminal using the same |
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