CN103870040A - Information processing method and electronic device - Google Patents
Information processing method and electronic device Download PDFInfo
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- CN103870040A CN103870040A CN201210541267.2A CN201210541267A CN103870040A CN 103870040 A CN103870040 A CN 103870040A CN 201210541267 A CN201210541267 A CN 201210541267A CN 103870040 A CN103870040 A CN 103870040A
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Abstract
The invention discloses an information processing method and an electronic device. The information processing method is applicable to an electronic device comprising a flexible screen. The method includes determining whether the flexible screen deforms; detecting and obtaining a first deformation parameter corresponding to the deformation when the flexible screen deforms; determining a first display region corresponding to the deformation on the basis of the first deformation parameter; adjusting the value of the display parameter of a first display object in the first display region from a first value to a second value different from the first value on the basis of the first deformation parameter.
Description
Technical field
The present invention relates to electronic technology field, particularly a kind of method of information processing and electronic equipment.
Background technology
Along with the development of global IT application technology, increasing electronic equipment appears in people's life, such as: mobile phone, notebook computer, all-in-one etc.
Wherein, the display screen of these electronic equipments can be that flexible screen can be also glass screen, wherein there is the electronic equipment of flexible screen, concrete example is as being flexible mobile phone, flexible flat computer etc., owing to can fold, bending or curling, even so user has bent electronic equipment because of carelessness, do not worry damaging electronic equipment, so obtained more and more users' favor yet.
Present inventor is realizing in the process of the embodiment of the present application technical scheme, at least finds to exist in prior art following technical matters:
Due in the prior art, the screen of flexible screen can fold, and in the time that the screen of flexible screen folds, at the shown icon in the fold domain of screen or word because bend, so in the time there is the touch control operation of clicking described icon or word, the described icon of possibility or word can not respond, or word or the icon of response are not clicked word or icon, so cause the accurate not technical matters of flexible screen response, the response that sometimes even can lead to errors.
Summary of the invention
The embodiment of the present invention provides a kind of information processing method and electronic equipment, for solving the accurate not technical matters of prior art flexible screen response.
On the one hand, the application provides following technical scheme by an embodiment:
A method for information processing, described method is applied in one and comprises in the electronic equipment of flexible screen,, described method comprises:
Judge whether described flexible screen deformation occurs;
In the time of described flexible screen generation deformation, detect and obtain corresponding the first deformation parameter of described deformation;
Determine and corresponding the first viewing area of described deformation based on described the first deformation parameter;
Based on described the first deformation parameter, first in described the first viewing area shown to the value of the display parameter of object is adjusted into second value different from described the first value by the first value.
Optionally, described flexible screen comprises N region, and the below, each region in a described N region is provided with sensing unit.
Optionally, in the time that described sensing unit is acceleration transducer, describedly judge that whether described flexible screen deformation occurs, and specifically comprises:
Detect the first acceleration information that obtains described flexible screen by described acceleration transducer;
Judge that whether described the first acceleration information meets first pre-conditioned, wherein, when described the first acceleration information meets described first when pre-conditioned, determine described flexible screen generation deformation.
Optionally, described detection obtains corresponding the first deformation parameter of described deformation, is specially:
Detect N the sub-information of the first acceleration obtaining in described the first acceleration information, described N the sub-information of the first acceleration is described the first deformation parameter.
Optionally, a described N acceleration information, is specially:
The sub-acceleration information of X-direction in each region in a described N region; And/or
The sub-acceleration information of Y direction in each region in a described N region; And/or
The sub-acceleration information of Z-direction in each region in a described N region.
Optionally, described based on described the first deformation parameter determine with corresponding the first viewing area of described deformation, specifically comprise:
Based on the corresponding relation between deformation parameter and the form of flexible screen, determine the first form of the corresponding described flexible screen of described the first deformation parameter;
Based on the corresponding relation between form and region, determine corresponding the first viewing area of described the first form.
Optionally, described based on described the first deformation parameter, first in described the first viewing area shown to the value of the display parameter of object is adjusted into second value different from described the first value by the first value, be specially:
Show that by described first the display size of object is adjusted into the second display size by the first display size, wherein, described the second display size is greater than described the first display size.
Optionally, the described display size by described the first demonstration object is adjusted into the second display size by the first display size, specifically comprises:
Determine the first deformation degree of described flexible screen based on described the first deformation parameter;
Based on described the first deformation degree, described the first display size is adjusted into described the second display size.
Optionally, described based on described the first deformation parameter, first in described the first viewing area shown to the value of the display parameter of object is adjusted into second value different from described the first value by the first value, be specially:
Show that by described first the viewing area of object moves to the second viewing area by described the first viewing area, wherein, described the second viewing area is the region that described deformation does not occur.
Optionally, the described viewing area by described the first demonstration object moves to the second viewing area by the first viewing area, specifically comprises:
Determine described second viewing area different from described the first viewing area on described flexible screen surface, wherein, the distance of described the second viewing area and described the first viewing area is within the scope of a predetermined threshold value;
Judge whether described the second viewing area is white space;
In the time that described the second viewing area is described white space, show that by described first object is presented at described the second viewing area.
On the other hand, the application provides following technical scheme by another embodiment:
A kind of electronic equipment, described electronic equipment comprises flexible screen,, described electronic equipment also comprises:
Judge module, for judging whether described flexible screen deformation occurs;
Detection module, for when the described flexible screen generation deformation, detects and obtains corresponding the first deformation parameter of described deformation;
Determination module, for determining and corresponding the first viewing area of described deformation based on described the first deformation parameter;
Adjusting module, for based on described the first deformation parameter, shows first in described the first viewing area the value of the display parameter of object is adjusted into second value different from described the first value by the first value.
Optionally, described flexible screen comprises N region, and the below, each region in a described N region is provided with sensing unit.
Optionally, in the time that described sensing unit is acceleration transducer, described judge module, specifically comprises:
Obtain unit, for detect the first acceleration information that obtains described flexible screen by described acceleration transducer;
The first judging unit, first pre-conditioned for judging that whether described the first acceleration information meets, wherein, when described the first acceleration information meets described first when pre-conditioned, determine described flexible screen generation deformation.
Optionally, described detection module, specifically for:
Detect N the sub-information of the first acceleration obtaining in described the first acceleration information, described N the sub-information of the first acceleration is described the first deformation parameter.
Optionally, a described N acceleration information, is specially:
The sub-acceleration information of X-direction in each region in a described N region; And/or
The sub-acceleration information of Y direction in each region in a described N region; And/or
The sub-acceleration information of Z-direction in each region in a described N region.
Optionally, described determination module, specifically comprises:
The first determining unit, for the corresponding relation based between deformation parameter and the form of flexible screen, determines the first form of the corresponding described flexible screen of described the first deformation parameter;
The second determining unit, for the corresponding relation based between form and region, determines corresponding the first viewing area of described the first form.
Optionally, described adjusting module, specifically for:
Show that by described first the display size of object is adjusted into the second display size by the first display size, wherein, described the second display size is greater than described the first display size.
Optionally, described adjusting module, specifically comprises:
The 3rd determining unit, for determining the first deformation degree of described flexible screen based on described the first deformation parameter;
Adjustment unit, for based on described the first deformation degree, is adjusted into described the second display size by described the first display size.
Optionally, described adjusting module, specifically for:
Show that by described first the viewing area of object moves to the second viewing area by described the first viewing area, wherein, described the second viewing area is the region that described deformation does not occur.
Optionally, described adjusting module, specifically comprises:
The 4th determining unit, for determining described second viewing area different from described the first viewing area on described flexible screen surface, wherein, the distance of described the second viewing area and described the first viewing area is within the scope of a predetermined threshold value;
The second judging unit, for judging whether described the second viewing area is white space;
Display unit, in the time that described the second viewing area is described white space, shows that by described first object is presented at described the second viewing area.
One or more technical schemes that the application provides, at least have following technique effect or advantage:
(1) due in the embodiment of the present application, adopt in the time of flexible screen generation deformation, based on the first deformation parameter of flexible screen, determine the first viewing area of described flexible screen, and then adjust first of described the first viewing area and show the technical scheme of display parameter of object, so reached the more accurate technique effect of the control of flexible screen.
(2) due in the embodiment of the present application, can adopt multiple sensors determine whether flexible screen deformation occurs and in flexible screen occurring when deformation, detect its corresponding the first deformation parameter, so reached, the deformation of flexible screen is detected to more diversified technique effect.
(3) due in the embodiment of the present application, adopt the technical scheme that the display size of the first demonstration object is adjusted into the second display size that is greater than described the first display size by the first display size, so expanded described first show object can touch area, and then reached the more accurate technique effect of response of flexible screen.
(4) due in the embodiment of the present application, the difference of the deformation degree based on described flexible screen, the adjustment of the display size to the first demonstration object is also different, so reached the more accurate technique effect of the demonstration control of the first demonstration object.
(5) due in the embodiment of the present application, adopted by the first demonstration object viewing area moved to the technical scheme of the second viewing area by the first viewing area, wherein, described the second viewing area is not folded region in described flexible screen, so reached the more accurate technique effect of the response of flexible screen.
(6) due in the embodiment of the present application, before the first demonstration object is shown in to described the second viewing area, to first judge whether described the second viewing area is white space, so reached the more accurate technique effect of the demonstration control of the first demonstration object.
Accompanying drawing explanation
Fig. 1 is the process flow diagram of the method for information processing in the embodiment of the present application one;
Fig. 2 is the process flow diagram of determining the first viewing area in the embodiment of the present application one method;
Fig. 3 is the process flow diagram of adjusting the display size of the first demonstration object in the embodiment of the present application one method;
Fig. 4 is the process flow diagram of adjusting the display position of the first demonstration object in the embodiment of the present application one method;
Fig. 5 a is the structural drawing of flexible screen mobile phone in the time of normal morphology of mobile phone in the embodiment of the present application two;
The structural drawing of mobile phone when Fig. 5 b is the flexible screen generation deformation of mobile phone in the embodiment of the present application two;
Fig. 5 c amplifies the structural drawing of the described first mobile phone while showing the display size of object while being the flexible screen generation deformation of mobile phone in the embodiment of the present application two;
Fig. 6 is the structural drawing of electronic equipment in the embodiment of the present application three.
Embodiment
The embodiment of the present invention provides a kind of information processing method and electronic equipment, for solving the accurate not technique effect of response of prior art flexible screen.
Technical scheme in the embodiment of the present application is to solve above-mentioned technical matters, and general thought is as follows:
First judge whether flexible screen deformation occurs, wherein, acceleration transducer, tension pick-up that can be by being arranged on flexible screen bottom etc. judges whether flexible screen deformation occurs; After flexible screen generation deformation, obtain corresponding the first deformation parameter of described deformation, for example: the N of an a described flexible screen region corresponding N acceleration information; Then, determine corresponding the first viewing area of described deformation by described the first deformation parameter; Determining after described the first viewing area, based on described the first deformation parameter, first in described the first viewing area shown to object adjusts, for example: adjust the described first display size that shows object, display position etc.
When flexible screen control due to employing such scheme, adopt in the time of flexible screen generation deformation, based on the first deformation parameter of flexible screen, determine the first viewing area of described flexible screen, and then adjust first of described the first viewing area and show the technical scheme of display parameter of object, so reached the more accurate technique effect of the control of flexible screen.
In order better to understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail.
Embodiment mono-
The embodiment of the present application one provides a kind of method of information processing, and the method for described information processing is applied in one and comprises that in the electronic equipment of flexible screen, described electronic equipment is for example: mobile phone, panel computer, notebook computer etc.
Please refer to Fig. 1, the method for described information processing comprises the steps:
Step S101: judge whether described flexible screen deformation occurs;
Step S102: in the time of described flexible screen generation deformation, detect and obtain corresponding the first deformation parameter of described deformation;
Step S103: determine and corresponding the first viewing area of described deformation based on described the first deformation parameter;
Step S104: based on described the first deformation parameter, first in described the first viewing area shown to the value of the display parameter of object is adjusted into second value different from described the first value by the first value.
Wherein, in step S101, described flexible screen can be divided into N region, described N is more than or equal to 1 integer, then the bottom, each region in a described N region is arranged to sensing unit, detects described flexible screen whether deformation occurs based on described sensing unit.
In specific implementation process, the bottom, each region in a described N region can arrange a sensing unit, such as: the center that is arranged on bottom, each region; Multiple sensing units also can be set, such as: one sensing unit is set respectively or on the center line on four limits bottom each region, sensing unit etc. is set respectively at four diagonal line of bottom, each region.For how described sensing unit is set, the embodiment of the present application is not restricted.
In specific implementation process, described sensing unit can be multiple sensing unit, such as: acceleration transducer, tension pick-up, electric resistance sensor, Hall element, pressure transducer etc., below will be take described sensing unit as acceleration transducer and tension pick-up be introduced respectively as example, the deterministic process of other sensing unit is similar with it, so introduce no longer in detail at this.
The first, in the time that described sensing unit is acceleration transducer, describedly judges that whether described flexible screen deformation occurs, and specifically comprises:
Detect the first acceleration information that obtains described flexible screen by described acceleration transducer;
Judge that whether described the first acceleration information meets first pre-conditioned, wherein, when described the first acceleration information meets described first when pre-conditioned, determine described flexible screen generation deformation.
In specific implementation process, owing to being provided with acceleration transducer below the each region in N region, N the sub-information of the first acceleration just can be detected by this N acceleration transducer, the sub-information of each acceleration in described N the sub-information of the first acceleration comprises respectively again:
The sub-acceleration information of X-direction of described the first viewing area; And/or
The Y week director acceleration information of described the first viewing area; And/or
The sub-acceleration information of Z-direction of described the first viewing area.
By the collected sub-acceleration information that comprises X, Y, tri-directions of Z of an above-mentioned N acceleration transducer, just can determine the current sub-shape information in the each region in N region of described flexible screen, by this N current sub-shape information, just can determine the current shape information of described flexible screen, in the time that the bright described flexible screen of current form information table of described flexible screen occurs folding or be bending, show described flexible screen generation deformation.
The second, in the time that described sensor is tension pick-up, describedly judges that whether described flexible screen deformation occurs, and specifically comprises:
Detect the first tension information that obtains described flexible screen by described tension pick-up;
Judge that whether described the first tension information meets second pre-conditioned, wherein, when described tension information meets described second when pre-conditioned, determine described flexible screen generation deformation.
In specific implementation process, between the regional of flexible screen, conventionally all have certain tension force, owing to making, the material of flexible screen is identical, if so flexible screen for example do not occur: the similarly deformation such as bending, folding, so, the tension force in each region of described flexible screen should be identical;
So, N sub-tension information just can detected by the set tension pick-up in a described N region; Then judge that whether the individual sub-tension information of described N is identical or fluctuate while being no more than a preset value, showing that deformation does not occur described flexible screen; And if the value of fluctuating of a described N tension information is while exceeding described preset value, shows described flexible screen generation deformation.
Wherein, in step S102, based on judging in step S101 whether flexible screen the difference of the sensing unit of deformation occurs, detect the first deformation parameter obtaining also different, two kinds that enumerate below are wherein introduced, certainly, in specific implementation process, be not limited to following two kinds of situations.
The first, in the time that described sensing unit is acceleration transducer, described the first deformation parameter, be specially: described N the corresponding N in region detecting by described acceleration transducer the first acceleration information, wherein, the sub-information of each acceleration comprises: the sub-acceleration information of X-axis, Y-axis and Z-direction.
The second, in the time that described sensing unit is tension pick-up, described the first deformation parameter, is specially:
The first tension information of the described flexible screen detecting by described tension pick-up, wherein, because described flexible screen comprises N region, so described the first tension information comprises the corresponding N in each region the sub-information of the first tension force in this N region.
As seen from the above description, due in the embodiment of the present application, can adopt multiple sensors determine whether flexible screen deformation occurs and in flexible screen occurring when deformation, to detect its corresponding the first deformation parameter, so reached, the deformation of flexible screen is detected to more diversified technique effect.
Wherein, in step S103, first viewing area corresponding with described deformation, be the near zone of described deformation region under normal circumstances, for example: take described deformation region as axis of symmetry, then, each expansion one predeterminable range at described axis of symmetry two ends, for example: 10px, 20px, 50px etc., obtain a rectangular area; Described rectangular area is described the first viewing area; Again such as: take described axis of symmetry as diameter, determine a border circular areas, described border circular areas is described first viewing area etc.Certainly, in specific implementation process, can also adopt alternate manner to determine described the first viewing area, to this, the embodiment of the present application no longer itemizes, and is not restricted.
Wherein, in step S103, determine first viewing area corresponding with described deformation based on described the first deformation parameter, as shown in Figure 2, comprise the steps:
Step S201: based on the corresponding relation between deformation parameter and the form of flexible screen, determine the first form of the corresponding described flexible screen of described the first deformation parameter;
Step S202: based on the corresponding relation between form and region, determine corresponding the first viewing area of described the first form.
Wherein, in described step S201, described the first form specifically comprises: deformation direction, deformation degree, deformation coordinate etc., it can certainly be other form, due to, determine corresponding the first parameter information in each region in N region based on step S102, comprehensively analyze by the first parameter information to this each region, just can determine corresponding the first form of described flexible screen.
Wherein, in step S202, by the deformation coordinate in determined the first form in step S201, just can determine corresponding the first viewing area of described the first form.
Wherein, described the first viewing area is a region in corresponding described flexible screen only, also can corresponding multiple regions, and the embodiment of the present application is not restricted.
Wherein, in step S104, the value that in described the first viewing area first is shown to the display parameter of object is adjusted into second value different from described the first value by the first value, can be divided into again multiple situation, two kinds that enumerate below are wherein introduced, certainly,, in specific implementation process, be not limited to following two kinds of situations.
The first, described based on described the first deformation parameter, first in described the first viewing area shown to the value of the display parameter of object is adjusted into second value different from described the first value by the first value, be specially:
Show that by described first the display size of object is adjusted into the second display size by the first display size, wherein, described the second display size is greater than described the first display size.
In specific implementation process, in the time of described flexible screen generation deformation, its first viewing area that deformation occurs is bending owing to occurring, so in the situation that its display size is constant, due to the core of deformation may touch-control less than, so cause its touch-control area to reduce, easily cause flexible screen not respond for touch control operation, or produce wrong response, for example: suppose that flexible screen surface shows " upper one " successively, " next one ", " time-out " button, wherein, Next button region is the first viewing area, namely there is deformation, in the time that user carries out touch control operation, may be because contact area be too small, cause can not responding, or because contact area is too small, cause with the contact area of " time-out " button excessive on the contrary, thereby response is " time-out ", so, in the embodiment of the present application, can show corresponding display size by amplifying described first, such as: originally show dimensions as 100px*100px, being expanded as 150px*150px, 200px*200px etc., can certainly be other value, in addition, in specific implementation process, the display size equal proportion of described the first demonstration object can be amplified, also can amplify not according to equal proportion, such as: being enlarged into 200px*100px, 300px*100px etc., can certainly be other value, and the embodiment of the present application is not restricted.
As seen from the above description, due in the embodiment of the present application, adopt the technical scheme that the display size of the first demonstration object is adjusted into the second display size that is greater than described the first display size by the first display size, so expanded described first show object can touch area, and then reached the more accurate technique effect of response of flexible screen.
In specific implementation process, can adopt various ways to determine described the second display size, so that described the first demonstration object is adjusted, two kinds that enumerate below are wherein introduced, and certainly, in specific implementation process, are not limited to following two kinds of situations.
1. set a default enlargement factor, such as: 2 times, 4 times etc., it can certainly be other value, in the time detecting that deformation occurs in described the first viewing area, determine the first demonstration object shown on described the first viewing area, such as: an icon, button etc., then determine its display size, be assumed to be: 100px*100px, then based on described enlargement factor, determine its second display size, for example: if enlargement factor is 2 times, second show dimensions as so: 200px*200px, if enlargement factor is 4 times, second show dimensions as so: 400px*400px etc.
2. please refer to shown in Fig. 3, comprise the steps:
Step S301: the first deformation degree of determining described flexible screen based on described the first deformation parameter;
Step S302: based on described the first deformation degree, described the first display size is adjusted into described the second display size.
Wherein, in step S301, can adopt various ways to characterize described the first deformation degree; for example: in the time of described flexible screen generation deformation; described flexible screen at least comprises one first plane and the second plane; can determine described the first deformation degree by the angle between described the first plane and the second plane; wherein; angle is less; the deformation degree that just shows described flexible screen is higher, supposes in the present embodiment, and described angle is 120 degree; certainly; also can be other value, such as: 70 degree, 90 degree etc., the embodiment of the present application is not restricted; Or the tension force between described the first plane and the second plane is larger, illustrate that its deformation degree is higher.Certainly, can also adopt alternate manner to characterize described the first deformation degree, this embodiment of the present application is not restricted.
In specific implementation process, in step S302, can preset the corresponding relation between a deformation degree and magnification ratio, to characterize described deformation degree as example by the angle between the first plane and the second plane, suppose to exist following corresponding relation:
Angle (degree) | Enlargement factor |
135~180 | 2 |
90~135 | 4 |
45~90 | 6 |
0~45 | 8 |
So, because the corresponding angle of the first deformation degree is: 120 degree, so its correspondence be enlarged into 4 times, if described first shows dimensions as: 100px*100px, so, described the second display size should be: 400px*400px.Certainly,, in specific implementation process, for there is which kind of corresponding relation between described deformation degree and enlargement factor, the embodiment of the present application is not restricted.
As seen from the above description, due in the embodiment of the present application, the difference of the deformation degree based on described flexible screen, the adjustment of the display size to the first demonstration object is also different, so reached the more accurate technique effect of the demonstration control of the first demonstration object.
The second, described based on described the first deformation parameter, first in described the first viewing area shown to the value of the display parameter of object is adjusted into second value different from described the first value by the first value, be specially:
Show that by described first the viewing area of object moves to the second viewing area by the first viewing area, wherein, described the second viewing area is the region that described deformation does not occur.
In specific implementation process, because deformation occurs in described the first viewing area, cause can diminishing touch area of the first shown demonstration object of described the first viewing area, so can be moved to the second viewing area that deformation does not occur.
For example: suppose that described first shows that the viewing area of object is (100 ~ 200,100 ~ 200), wherein, described flexible screen is carried out longitudinal bending with X=150px, in this case, can show object move to left at least 50px or at least 50px that moves to right by described first, so that described first shows that deformation does not occur in object shown region.
As seen from the above description, due in the embodiment of the present application, adopted by the first demonstration object viewing area moved to the technical scheme of the second viewing area by the first viewing area, wherein, described the second viewing area is not folded region in described flexible screen, so reached the more accurate technique effect of the response of flexible screen.
In specific implementation process, the described viewing area by described the first demonstration object moves to the second viewing area by the first viewing area, as shown in Figure 4, specifically comprises the steps: again
Step S401: determine second viewing area different from described the first viewing area on described flexible screen surface, wherein, the distance of described the second viewing area and described the first viewing area is within the scope of a predetermined threshold value;
Step S402: judge whether described the second viewing area is white space;
Step S403: in the time that described the second viewing area is described white space, show that by described first object is presented at described the second viewing area.
Wherein, in step S401, described the second viewing area is for example the viewing area of the first edge within the scope of a predetermined threshold value of described the first viewing area of distance, and described the first edge is for example: left hand edge, coboundary etc., and the embodiment of the present application is not restricted; Described predetermined threshold value scope is for example: 50px, 100px etc., the embodiment of the present application is not restricted.
Take described the first viewing area as: (100 ~ 200,100 ~ 200) be example, if described the first edge is left hand edge, within the scope of predetermined threshold value, be: 50px, so, 50px can move to left described the first viewing area, to obtain described the second viewing area (50 ~ 150,100 ~ 200), 50px also can move to right described the first viewing area, to obtain described the second viewing area (150 ~ 250,100 ~ 200) etc., certainly, in specific implementation process, for how obtaining described the second viewing area, the embodiment of the present application is not restricted.
In specific implementation process, can directly show that by described first object is shown in described the second viewing area, but in some cases, described the second viewing area may comprise displaying contents, if show that by described first object is shown in described the second viewing area and will causes showing that object is overlapping.So can judge whether described the second viewing area is white space based on step S402, namely whether described the second viewing area there is demonstration object, in the time that described the second viewing area is white space, performs step S403 and show that by described first object is shown in described the second viewing area; And when described the second non-blank-white region, viewing area, redefine a second other viewing area.
As seen from the above description, due in the embodiment of the present application, before the first demonstration object is shown in to described the second viewing area, first judge whether described the second viewing area is white space, so reached the more accurate technique effect of the demonstration control of the first demonstration object.
Embodiment bis-
In order to make the method for the information processing that the more detailed understanding the embodiment of the present application one of those skilled in the art introduces, the embodiment of the present application two will be example take described electronic equipment as mobile phone, and the method is introduced in the use procedure based on user.
Please refer to Fig. 5 a, Fig. 5 b, Fig. 5 c, described mobile phone comprises following structure:
In the T1 moment, user A opens described mobile phone, and as shown in Figure 5 a, described flexible screen 501 is in normal morphology.Wherein, 6 the sub-information of acceleration that obtain are detected at the each Preset Time of described acceleration transducer 502 interval, and by the extremely processor of described mobile phone of described 6 sub-communications of acceleration, detect described flexible screen whether deformation occurs for described processor.
In the T2 moment, user A folds described flexible screen 501, as shown in Figure 5 b.After described acceleration transducer detects 6 sub-information of acceleration, send it to the processor of described mobile phone, described processor is by analyzing described 6 sub-information of acceleration, determine described mobile phone generation deformation, and corresponding the first viewing area of its deformation is: (0 ~ 200,100 ~ 200), and wherein, described icon b504b is shown in described the first viewing area, and it shows dimensions as 25px*25px;
Then described processor detects that default enlargement factor is 2 times, so described icon b504b display size is set to the second display size 50px*50px, as shown in Figure 5 c.
Embodiment tri-
Based on same inventive concept, the embodiment of the present application three provides a kind of electronic equipment, and described electronic equipment comprises flexible screen, and described electronic equipment is for example: mobile phone, panel computer, notebook computer etc.
Please refer to Fig. 6, described electronic equipment also comprises following structure:
Adjusting module 604, for based on described the first deformation parameter, shows first in described the first viewing area the value of the display parameter of object is adjusted into second value different from described the first value by the first value.
In specific implementation process, described flexible screen comprises N region, and the below, each region in a described N region is provided with sensing unit.
In specific implementation process, described judge module 601 can adopt various ways to judge whether described flexible screen deformation occurs, and enumerates wherein two kinds be introduced below, certainly, in specific implementation process, is not limited to following two kinds of situations.
The first, in the time that described sensing unit is acceleration transducer, described judge module 601, specifically comprises:
Obtain unit, for detect the first acceleration information that obtains described flexible screen by described acceleration transducer;
The first judging unit, first pre-conditioned for judging that whether described the first acceleration information meets, wherein, when described the first acceleration information meets described first when pre-conditioned, determine described flexible screen generation deformation.
The second, in the time that described sensing unit is tension pick-up, described judge module 601, specifically for:
Detect the first tension information that obtains described flexible screen by described tension pick-up;
Judge that whether described the first tension information meets second pre-conditioned, wherein, when described tension information meets described second when pre-conditioned, determine described flexible screen generation deformation.
In specific implementation process, based on the difference of described sensing unit, the first deformation parameter that described detection module 502 obtains is also different, and two kinds that enumerate below are wherein introduced, and certainly, in specific implementation process, are not limited to following two kinds of situations.
The first, described detection module 602, specifically for:
Detect N the sub-information of the first acceleration obtaining in described the first acceleration information, described N the sub-information of the first acceleration is described the first deformation parameter.
In specific implementation process, a described N acceleration information, is specially:
The sub-acceleration information of X-direction in each region in a described N region; And/or
The sub-acceleration information of Y direction in each region in a described N region; And/or
The sub-acceleration information of Z-direction in each region in a described N region.
The second, described detection module 602 specifically for:
The first tension information of the described flexible screen detecting by described tension pick-up, described the first tension information is described the first deformation parameter.
As seen from the above description, due in the embodiment of the present application, can adopt multiple sensors determine whether flexible screen deformation occurs and in flexible screen occurring when deformation, to detect its corresponding the first deformation parameter, so reached, the deformation of flexible screen is detected to more diversified technique effect.
In specific implementation process, described determination module 603, specifically comprises:
The first determining unit, for the corresponding relation based between deformation parameter and the form of flexible screen, determines the first form of the corresponding described flexible screen of described the first deformation parameter;
The second determining unit, for the corresponding relation based between form and region, determines corresponding the first viewing area of described the first form.
In specific implementation process, described the first form specifically comprises: deformation direction, deformation degree, deformation coordinate etc., it can certainly be other form, just can determine corresponding the first parameter information in each region in N region based on described detection module 602, comprehensively analyze by the first parameter information to this each region, just can determine corresponding the first form of described flexible screen.Then by the deformation coordinate in described the first form, just can determine corresponding the first viewing area of described the first form.
Wherein, described the first viewing area is a region in corresponding described flexible screen only, also can corresponding multiple regions, and the embodiment of the present application is not restricted.
In specific implementation process, described adjusting module 604 can adopt various ways to adjust the value of the display parameter of described the first demonstration object, and two kinds that enumerate below are wherein introduced, and certainly, in specific implementation process, are not limited to following two kinds of situations.
The first, described adjusting module 604, specifically for:
Show that by described first the display size of object is adjusted into the second display size by the first display size, wherein, described the second display size is greater than described the first display size.
As seen from the above description, due in the embodiment of the present application, adopt the technical scheme that the display size of the first demonstration object is adjusted into the second display size that is greater than described the first display size by the first display size, so expanded described first show object can touch area, and then reached the more accurate technique effect of response of flexible screen.
In specific implementation process, described adjusting module 604 can adopt various ways to determine described the second display size, and two kinds that enumerate below are wherein introduced, and certainly, in specific implementation process, is not limited to following two kinds of situations.
The first, sets a default enlargement factor.
The second, described adjusting module 604, specifically comprises:
The 3rd determining unit, for determining the first deformation degree of described flexible screen based on described the first deformation parameter;
Adjustment unit, for based on described the first deformation degree, is adjusted into described the second display size by described the first display size.
As seen from the above description, due in the embodiment of the present application, the difference of the deformation degree based on described flexible screen, the adjustment of the display size to the first demonstration object is also different, so reached the more accurate technique effect of the demonstration control of the first demonstration object.
The second, described adjusting module 604, specifically for:
Show that by described first the viewing area of object moves to the second viewing area by the first viewing area, wherein, described the second viewing area is the region that described deformation does not occur.
As seen from the above description, due in the embodiment of the present application, adopted by the first demonstration object viewing area moved to the technical scheme of the second viewing area by the first viewing area, wherein, described the second viewing area is not folded region in described flexible screen, so reached the more accurate technique effect of the response of flexible screen.
In specific implementation process, described adjusting module 604, specifically comprises:
The 4th determining unit, for determining second viewing area different from described the first viewing area on described flexible screen surface, wherein, the distance of described the second viewing area and described the first viewing area is within the scope of a predetermined threshold value;
The second judging unit, for judging whether described the second viewing area is white space;
Display unit, in the time that described the second viewing area is described white space, shows that by described first object is presented at described the second viewing area.
As seen from the above description, due in the embodiment of the present application, before the first demonstration object is shown in to described the second viewing area, first judge whether described the second viewing area is white space, so reached the more accurate technique effect of the demonstration control of the first demonstration object.
The electronic equipment of introducing due to the embodiment of the present application three, the electronic equipment adopting for implementing the method for the information processing in the embodiment of the present application one, so method of the information processing based on introducing in the embodiment of the present application one, the embodiment that those skilled in the art can understand the electronic equipment in the present embodiment three with and various version, so introduce no longer in detail for this electronic equipment at this.As long as those skilled in the art implement the electronic equipment that the method for information processing in the embodiment of the present application one adopts, all belong to the scope of the application institute wish protection.
One or more technical schemes that the application provides, at least have following technique effect or advantage:
(1) due in the embodiment of the present application, adopt in the time of flexible screen generation deformation, based on the first deformation parameter of flexible screen, determine the first viewing area of described flexible screen, and then adjust first of described the first viewing area and show the technical scheme of display parameter of object, so reached the more accurate technique effect of the control of flexible screen.
(2) due in the embodiment of the present application, can adopt multiple sensors determine whether flexible screen deformation occurs and in flexible screen occurring when deformation, detect its corresponding the first deformation parameter, so reached, the deformation of flexible screen is detected to more diversified technique effect.
(3) due in the embodiment of the present application, adopt the technical scheme that the display size of the first demonstration object is adjusted into the second display size that is greater than described the first display size by the first display size, so expanded described first show object can touch area, and then reached the more accurate technique effect of response of flexible screen.
(4) due in the embodiment of the present application, the difference of the deformation degree based on described flexible screen, the adjustment of the display size to the first demonstration object is also different, so reached the more accurate technique effect of the demonstration control of the first demonstration object.
(5) due in the embodiment of the present application, adopted by the first demonstration object viewing area moved to the technical scheme of the second viewing area by the first viewing area, wherein, described the second viewing area is not folded region in described flexible screen, so reached the more accurate technique effect of the response of flexible screen.
(6) due in the embodiment of the present application, before the first demonstration object is shown in to described the second viewing area, to first judge whether described the second viewing area is white space, so reached the more accurate technique effect of the demonstration control of the first demonstration object.
Although described the preferred embodiments of the present invention, once those skilled in the art obtain the basic creative concept of cicada, can make other change and modification to these embodiment.So claims are intended to be interpreted as comprising preferred embodiment and fall into all changes and the modification of the scope of the invention.
Obviously, those skilled in the art can carry out various changes and modification and not depart from the spirit and scope of the present invention the present invention.Like this, if within of the present invention these are revised and modification belongs to the scope of the claims in the present invention and equivalent technologies thereof, the present invention is also intended to comprise these changes and modification interior.
Claims (20)
1. a method for information processing, described method is applied in one and comprises in the electronic equipment of flexible screen, and it is characterized in that, described method comprises:
Judge whether described flexible screen deformation occurs;
In the time of described flexible screen generation deformation, detect and obtain corresponding the first deformation parameter of described deformation;
Determine and corresponding the first viewing area of described deformation based on described the first deformation parameter;
Based on described the first deformation parameter, first in described the first viewing area shown to the value of the display parameter of object is adjusted into second value different from described the first value by the first value.
2. the method for claim 1, is characterized in that, described flexible screen comprises N region, and the below, each region in a described N region is provided with sensing unit.
3. method as claimed in claim 2, is characterized in that, in the time that described sensing unit is acceleration transducer, describedly judges that whether described flexible screen deformation occurs, and specifically comprises:
Detect the first acceleration information that obtains described flexible screen by described acceleration transducer;
Judge that whether described the first acceleration information meets first pre-conditioned, wherein, when described the first acceleration information meets described first when pre-conditioned, determine described flexible screen generation deformation.
4. method as claimed in claim 3, is characterized in that, described detection obtains corresponding the first deformation parameter of described deformation, is specially:
Detect N the sub-information of the first acceleration obtaining in described the first acceleration information, described N the sub-information of the first acceleration is described the first deformation parameter.
5. method as claimed in claim 4, is characterized in that, a described N acceleration information, is specially:
The sub-acceleration information of X-direction in each region in a described N region; And/or
The sub-acceleration information of Y direction in each region in a described N region; And/or
The sub-acceleration information of Z-direction in each region in a described N region.
6. the method for claim 1, is characterized in that, described based on described the first deformation parameter determine with corresponding the first viewing area of described deformation, specifically comprise:
Based on the corresponding relation between deformation parameter and the form of flexible screen, determine the first form of the corresponding described flexible screen of described the first deformation parameter;
Based on the corresponding relation between form and region, determine corresponding the first viewing area of described the first form.
7. the method as described in claim as arbitrary in claim 1-6, it is characterized in that, described based on described the first deformation parameter, first in described the first viewing area shown to the value of the display parameter of object is adjusted into second value different from described the first value by the first value, be specially:
Show that by described first the display size of object is adjusted into the second display size by the first display size, wherein, described the second display size is greater than described the first display size.
8. method as claimed in claim 7, is characterized in that, the described display size by described the first demonstration object is adjusted into the second display size by the first display size, specifically comprises:
Determine the first deformation degree of described flexible screen based on described the first deformation parameter;
Based on described the first deformation degree, described the first display size is adjusted into described the second display size.
9. the method as described in claim as arbitrary in claim 1-6, it is characterized in that, described based on described the first deformation parameter, first in described the first viewing area shown to the value of the display parameter of object is adjusted into second value different from described the first value by the first value, be specially:
Show that by described first the viewing area of object moves to the second viewing area by described the first viewing area, wherein, described the second viewing area is the region that described deformation does not occur.
10. method as claimed in claim 9, is characterized in that, the described viewing area by described the first demonstration object moves to the second viewing area by described the first viewing area, specifically comprises:
Determine described second viewing area different from described the first viewing area on described flexible screen surface, wherein, the distance of described the second viewing area and described the first viewing area is within the scope of a predetermined threshold value;
Judge whether described the second viewing area is white space;
In the time that described the second viewing area is described white space, show that by described first object is presented at described the second viewing area.
11. 1 kinds of electronic equipments, described electronic equipment comprises flexible screen, it is characterized in that, described electronic equipment also comprises:
Judge module, for judging whether described flexible screen deformation occurs;
Detection module, for when the described flexible screen generation deformation, detects and obtains corresponding the first deformation parameter of described deformation;
Determination module, for determining and corresponding the first viewing area of described deformation based on described the first deformation parameter;
Adjusting module, for based on described the first deformation parameter, shows first in described the first viewing area the value of the display parameter of object is adjusted into second value different from described the first value by the first value.
12. electronic equipments as claimed in claim 11, is characterized in that, described flexible screen comprises N region, and the below, each region in a described N region is provided with sensing unit.
13. electronic equipments as claimed in claim 12, is characterized in that, in the time that described sensing unit is acceleration transducer, described judge module, specifically comprises:
Obtain unit, for detect the first acceleration information that obtains described flexible screen by described acceleration transducer;
The first judging unit, first pre-conditioned for judging that whether described the first acceleration information meets, wherein, when described the first acceleration information meets described first when pre-conditioned, determine described flexible screen generation deformation.
14. electronic equipments as claimed in claim 13, is characterized in that, described detection module, specifically for:
Detect N the sub-information of the first acceleration obtaining in described the first acceleration information, described N the sub-information of the first acceleration is described the first deformation parameter.
15. electronic equipments as claimed in claim 14, is characterized in that, a described N acceleration information, is specially:
The sub-acceleration information of X-direction in each region in a described N region; And/or
The sub-acceleration information of Y direction in each region in a described N region; And/or
The sub-acceleration information of Z-direction in each region in a described N region.
16. electronic equipments as claimed in claim 11, is characterized in that, described determination module, specifically comprises:
The first determining unit, for the corresponding relation based between deformation parameter and the form of flexible screen, determines the first form of the corresponding described flexible screen of described the first deformation parameter;
The second determining unit, for the corresponding relation based between form and region, determines corresponding the first viewing area of described the first form.
Electronic equipment as described in 17. claims as arbitrary in claim 11-16, is characterized in that, described adjusting module, specifically for:
Show that by described first the display size of object is adjusted into the second display size by the first display size, wherein, described the second display size is greater than described the first display size.
18. electronic equipments as claimed in claim 17, is characterized in that, described adjusting module, specifically comprises:
The 3rd determining unit, for determining the first deformation degree of described flexible screen based on described the first deformation parameter;
Adjustment unit, for based on described the first deformation degree, is adjusted into described the second display size by described the first display size.
Electronic equipment as described in 19. claims as arbitrary in claim 11-16, is characterized in that, described adjusting module, specifically for:
Show that by described first the viewing area of object moves to the second viewing area by described the first viewing area, wherein, described the second viewing area is the region that described deformation does not occur.
20. electronic equipments as claimed in claim 19, is characterized in that, described adjusting module, specifically comprises:
The 4th determining unit, for determining described second viewing area different from described the first viewing area on described flexible screen surface, wherein, the distance of described the second viewing area and described the first viewing area is within the scope of a predetermined threshold value;
The second judging unit, for judging whether described the second viewing area is white space;
Display unit, in the time that described the second viewing area is described white space, shows that by described first object is presented at described the second viewing area.
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