CN106814951A - Realize method, device and the electronic equipment of visual balance - Google Patents
Realize method, device and the electronic equipment of visual balance Download PDFInfo
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- CN106814951A CN106814951A CN201510894142.1A CN201510894142A CN106814951A CN 106814951 A CN106814951 A CN 106814951A CN 201510894142 A CN201510894142 A CN 201510894142A CN 106814951 A CN106814951 A CN 106814951A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F9/00—Arrangements for program control, e.g. control units
- G06F9/06—Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
- G06F9/44—Arrangements for executing specific programs
- G06F9/451—Execution arrangements for user interfaces
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06V—IMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
- G06V40/00—Recognition of biometric, human-related or animal-related patterns in image or video data
- G06V40/10—Human or animal bodies, e.g. vehicle occupants or pedestrians; Body parts, e.g. hands
- G06V40/16—Human faces, e.g. facial parts, sketches or expressions
- G06V40/161—Detection; Localisation; Normalisation
- G06V40/165—Detection; Localisation; Normalisation using facial parts and geometric relationships
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Abstract
The disclosure is directed to a kind of method for realizing visual balance, device and electronic equipment.Methods described includes:Determine the space length between the face of the display screen of electronic equipment and the user of the hand-held electronic equipment;Determine the first locus of the electronic equipment current point in time relative to the electronic equipment the second space position at a upper time point spatial offset;Display content of the display screen in the current point in time is determined according to the space length, the spatial offset.Disclosed technique scheme delays the matching by display content and vibrations direction, it is to avoid the focusing repeatedly of eyeball, alleviates visual fatigue sense.
Description
Technical field
This disclosure relates to field of terminal technology, more particularly to a kind of method for realizing visual balance, device and
Electronic equipment.
Background technology
With user using electronic equipment time it is more and more, sometimes user by bus, walk etc. jolt
Environment in also have reading and see the demands such as mail.Now, electronic equipment can be with the user whole body environmentally
Lower vibrations, causing the eyes of user needs constantly adjustment focus point to go to catch the text shown by electronic equipment
Word, user can feel visual fatigue in the process, if long-term use electronic equipment meeting in this case
Influence the eyesight of user.
The content of the invention
To overcome problem present in correlation technique, the embodiment of the present disclosure provides a kind of visual balance of realizing
Method and device, is used to adjust display picture, overcomes jolting for environment, realizes that mobile phone shows relatively flat
Weighing apparatus and stabilization, make user that more comfortable reading experience is obtained in the environment for jolting.
According to the first aspect of the embodiment of the present disclosure, there is provided a kind of method for realizing visual balance, including:
Determine electronic equipment and the hand-held electronic equipment user face between space length;
Determine the first locus of the electronic equipment current point in time relative to the electronic equipment upper
The spatial offset of the second space position at one time point;
The display screen of the electronic equipment is adjusted described according to the space length, the spatial offset
The display content of current point in time.
In one embodiment, the face for determining electronic equipment and the user of the hand-held electronic equipment it
Between space length, it may include:
The face feature of the user of the hand-held electronic equipment is captured by the camera head of electronic equipment;
Search the distance corresponding with the face feature from feature-apart from mapping table, by the space away from
From being defined as the distance between the display screen and face, the feature-be used to record user apart from mapping table
Face feature and the electronic equipment between corresponding relation.
In one embodiment, methods described may also include:
Determine the multiple distance values between the face of the user of the electronic equipment and the display screen;
Determine what the camera head and the face of the user were captured when the multiple distance value is separated by
Multiple face features;
According to the multiple distance value and the multiple face feature to the feature-carried out apart from mapping table
Calibration.
In one embodiment, the spatial offset includes the first side-play amount of the first axial direction, second axially
The second side-play amount and the 3rd axial direction the 3rd side-play amount, it is described according to the space length, the sky
Between side-play amount adjust the display content of the display screen in the current point in time of the electronic equipment, it may include:
The display content on the display screen is adjusted according to first side-play amount and second side-play amount to exist
First axial direction and the display location of second axial direction;
The display content phase of the current point in time is determined according to the 3rd side-play amount and the space length
For the displaying ratio at a upper time point;
The size of the display content of the current point in time is adjusted according to the displaying ratio.
In one embodiment, it is described determined according to the 3rd side-play amount and the space length it is described current
The display content at time point relative to a upper time point displaying ratio the step of in, can be by as follows
Equation determines the displaying ratio:
θ=(d+ Δs z)/d, wherein, Δ z represents the 3rd side-play amount, and d represents the space length;
In one embodiment, the display content that the current point in time is adjusted according to the displaying ratio
Size the step of in, the size of the display content of the current point in time can be adjusted by following equation:
S '=θ * s, wherein, s ' represents the size of the corresponding display content of the current point in time, and s is represented
The size of upper time point corresponding display content.
In one embodiment, methods described may also include:
Determine visual attention location point of the human eye of the user on the display screen;
The display screen is adjusted centered on the visual attention location point in the display of the current point in time
Hold.
In one embodiment, methods described may also include:
By acceleration transducer on the electronic equipment detect the electronic equipment first axially, the
Whether two axial directions and the 3rd each self-corresponding side-play amount in axial direction are in a preset range;
If first axial direction, second are axially and the 3rd each self-corresponding side-play amount in axial direction is described pre-
If in scope, determining that the electronic equipment is in standard vibration pattern, the determination electronic equipment is performed
The step of the distance between display screen and face of user of the hand-held electronic equipment.
According to the second aspect of the embodiment of the present disclosure, there is provided a kind of device for realizing visual balance, including:
First determining module, is configured to determine that the people of electronic equipment and the user of the hand-held electronic equipment
Space length between face;
Second determining module, is configured to determine the first locus phase of the electronic equipment current point in time
For the electronic equipment a upper time point spatial offset;
First adjusting module, be configured as according to first determining module determine the space length,
The spatial offset that second determining module determines adjusts the display screen of the electronic equipment described
The display content of current point in time.
In one embodiment, first determining module may include:
Feature captures submodule, and the camera head for being configured to electronic equipment captures the hand-held electronics
The face feature of the user of equipment;
Submodule is searched, is configured as being searched from feature-apart from mapping table and feature capture submodule
The corresponding space length of the face feature that obtains, the display screen is defined as by the space length
Space length between face, the feature-be used to record face feature and the institute of user apart from mapping table
State the corresponding relation between electronic equipment.
In one embodiment, described device may also include:
3rd determining module, the face and the display screen of the user for being configured to determine the electronic equipment it
Between multiple distance values;
4th determining module, be configured to determine the face of the camera head and the user be separated by it is described
The multiple face features captured during multiple distance values;
Calibration module, is configured as the multiple distance value and the institute obtained according to the 3rd determining module
State that the 4th determining module obtains is even number multiple face features to the feature-carry out school apart from mapping table
It is accurate.
In one embodiment, the spatial offset includes the first side-play amount of the first axial direction, second axially
The second side-play amount and the 3rd axial direction the 3rd side-play amount, first adjusting module may include:
First adjustment submodule, is configured as being adjusted according to first side-play amount and second side-play amount
Display content on the display screen is in the described first axial direction and the display location of second axial direction;
First determination sub-module, is configured as determining institute according to the 3rd side-play amount and the space length
Stated the displaying ratio of the display content relative to a upper time point of current point in time;
Second adjustment submodule, is configured as the display ratio determined according to first determination sub-module
The size of the display content of the example adjustment current point in time.
In one embodiment, first determination sub-module can determine the displaying ratio by following equation:
θ=(d+ Δs z)/d, wherein, Δ z represents the 3rd side-play amount, and d represents the space length;
In one embodiment, the second adjustment submodule can adjust the current time by following equation
The size of the display content of point:
S '=θ * s, wherein, s ' represents the size of the corresponding display content of the current point in time, and s is represented
The size of upper time point corresponding display content.
In one embodiment, described device may also include:
5th determining module, is configured to determine visual attention location of the human eye of the user on the display screen
Point;
Second adjusting module, be configured as with the 5th determining module determine the visual attention location point be
Center adjusts display content of the display screen in the current point in time.
In one embodiment, described device may also include:
Detection module, the acceleration transducer being configured on the electronic equipment detects the electronics
Whether equipment is in the first axial direction, the second axial direction and the 3rd each self-corresponding side-play amount in axial direction in a default model
In enclosing;
If first axial direction, second that the detection module is detected are axially and the 3rd is axially respective
Corresponding side-play amount determines that the electronic equipment is in standard vibration pattern, institute in the preset range
State the user that the first determining module performs the display screen and the hand-held electronic equipment for determining electronic equipment
The distance between face the step of.
According to the third aspect of the embodiment of the present disclosure, there is provided a kind of electronic equipment, including:
Processor;
Memory for storing processor-executable instruction;
Wherein, the processor is configured as:
Determine electronic equipment and the hand-held electronic equipment user face between space length;
Determine the first locus of the electronic equipment current point in time relative to the electronic equipment upper
The spatial offset of the second space position at one time point;
The display screen of the electronic equipment is adjusted described according to the space length, the spatial offset
The display content of current point in time.
The technical scheme provided by this disclosed embodiment can include the following benefits:By space length,
The display screen of spatial offset adjustment electronic equipment can alleviate user in the display content of current point in time
Visual discomfort sense during electronic equipment is watched under the scene rocked in walking or riding process, by aobvious
Show the matching in content and vibrations direction, it is to avoid the focusing repeatedly of eyeball, alleviate visual fatigue sense, it is right to reduce
The injury of eyes, improves reading efficiency, greatly improves Consumer's Experience.
It should be appreciated that the general description of the above and detailed description hereinafter are only exemplary and explanatory
, the disclosure can not be limited.
Brief description of the drawings
Accompanying drawing herein is merged in specification and constitutes the part of this specification, shows and meets this hair
Bright embodiment, and be used to explain principle of the invention together with specification.
Fig. 1 is that human eye adjusts the lenticular scene graph of glasses when electronic equipment is watched.
Fig. 2A is the flow chart of the method for realizing visual balance according to an exemplary embodiment.
Fig. 2 B are the scene graph of the method for realizing visual balance according to an exemplary embodiment.
Fig. 3 A are the flow charts of the method for realizing visual balance according to an exemplary embodiment one.
Fig. 3 B are the stream to feature-be updated apart from mapping table according to an exemplary embodiment one
Cheng Tu.
Fig. 4 A are the flow charts of the method for realizing visual balance according to an exemplary embodiment two.
Fig. 4 B be the method for realizing visual balance according to an exemplary embodiment two scene graph it
One.
Fig. 4 C be the method for realizing visual balance according to an exemplary embodiment two scene graph it
Two.
Fig. 5 A are the flow charts of the method for realizing visual balance according to an exemplary embodiment three.
Fig. 5 B be the method for realizing visual balance according to an exemplary embodiment three scene graph it
One.
Fig. 5 C be the method for realizing visual balance according to an exemplary embodiment three scene graph it
Two.
Fig. 5 D be the method for realizing visual balance according to an exemplary embodiment three scene graph it
Three.
Fig. 5 E be the method for realizing visual balance according to an exemplary embodiment three scene graph it
Four.
Fig. 6 is a kind of block diagram of the device for realizing visual balance according to an exemplary embodiment.
Fig. 7 is the block diagram of the device that another kind according to an exemplary embodiment realizes visual balance.
Fig. 8 is the block diagram of the device that another according to an exemplary embodiment realizes visual balance.
Fig. 9 is a kind of frame of the device for being adapted to carry out visual balance according to an exemplary embodiment
Figure.
Specific embodiment
Here exemplary embodiment will be illustrated in detail, its example is illustrated in the accompanying drawings.Following
When description is related to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represent same or analogous
Key element.Implementation method described in following exemplary embodiment does not represent the institute consistent with the present invention
There is implementation method.Conversely, they be only with it is being described in detail in such as appended claims, of the invention one
The example of the consistent apparatus and method of a little aspects.
Fig. 1 is that human eye adjusts the lenticular scene graph of glasses when electronic equipment is watched, as shown in figure 1,
In user by bus or when the scene such as walk uses electronic equipment 11, electronic equipment 11 can relative to human eye
Do and frequently shake, Fig. 1 shows that electronic equipment 11 is shaken to current location by dotted line position, now,
If during electronic equipment 11 opens reading application program, the eyes of user need accurate focusing to specific
Word on, in electronic equipment 11 by dotted line position vibrations to during current position, human eye needs frequently
Numerous adjustment crystalline lens, so that the word content shown on Focusing electronics 11, causes the eyes of user
Feel fatigue, sense of discomfort brought to user, for a long time using even can bring injury to eyesight.
Fig. 2A is the flow chart of the method for realizing visual balance according to an exemplary embodiment, figure
2B is the scene graph of the method for realizing visual balance according to an exemplary embodiment;This realizes vision
The method of balance can be applied in mobile device (for example:Smart mobile phone, panel computer) on, such as Fig. 2A
Shown, this realizes that the method for visual balance comprises the following steps S201-S203:
In step s 201, determine electronic equipment and hand-hold electronic equipments user face between sky
Between distance.
In one embodiment, the use of electronic equipment and hand-hold electronic equipments can be determined by way of tabling look-up
Space length between the face at family, for example, when the camera head of electronic equipment captures the face of user
When width is a1 pixel, in the corresponding space lengths of the lookup of feature-in mapping table a1, the a1
Corresponding space length can be considered as the space length between electronic equipment and the face of user, real one
Apply in example, the size of the human eye that can also capture user by the camera head of electronic equipment is b1 picture
During vegetarian refreshments, the corresponding space lengths of b1 are searched in feature-in mapping table, the corresponding spaces of the b1 away from
From the space length that can be considered as between electronic equipment and the face of user.
In step S202, determine the first locus of electronic equipment current point in time relative to electronics
Spatial offset of the equipment in the second space position at a upper time point.
In one embodiment, can detect that electronic equipment is worked as by the acceleration transducer on electronic equipment
First locus at preceding time point relative to electronic equipment the second space position at a upper time point sky
Between side-play amount, for example, electronic equipment the first locus of current point in time be (x1, y1, z1)
Last moment corresponding second space position be (x2, y2, z2), then spatial offset (Δ x, Δ y,
Δ z) is (x1-x2, y1-y2, z1-z2).In one embodiment, a upper time point and current point in time
Time interval can be determined according to the vibration frequency of electronic equipment, if vibration frequency is larger, upper one
It is smaller that time interval between time point and current point in time can be set, if vibration frequency is smaller,
That then goes up that the time interval between a time point and current point in time can set is larger, for example, upper a period of time
Between point and the time interval of current point in time be 1 second.
In step S203, the display screen according to space length, spatial offset adjustment electronic equipment exists
The display content of current point in time.
In one embodiment, can be according to space length and the direction in the plane perpendicular to electronic equipment
Side-play amount determine the scaling of the display content of current point in time, according to parallel to electronic equipment
Mutually perpendicular plane coordinates fastens display content on a display screen inclined for determining current point in time in plane
Shifting amount, it may thereby be ensured that the display content of current point in time and display screen are shown by a upper time point
Location of content is substantially the same.
Used as an exemplary scenario, as shown in Figure 2 B, the display content on electronic equipment 11 is according to this
It is appropriate that the space length and spatial offset that embodiment is detected are carried out to the content for being currently needed for display
Adjustment, can eliminate shattering zone and come on the visual influence of user, it is to avoid the focusing change of human eye.
In the present embodiment, the display screen of electronic equipment is adjusted current by space length, spatial offset
The display content at time point, can alleviate viewing under the scene that user rocks in walking or riding process
Visual discomfort sense during electronic equipment, by display content and vibrations direction matching, it is to avoid eyeball it is anti-
Multiple focusing, alleviates visual fatigue sense, reduces the injury to eyes, improves reading efficiency, greatly improves
Consumer's Experience.
In one embodiment, determine electronic equipment and hand-hold electronic equipments user face between space
Distance, it may include:
The face feature of the user of hand-hold electronic equipments is captured by the camera head of electronic equipment;
The distance corresponding with face feature is searched from feature-apart from mapping table, distance is defined as to show
Screen the distance between with face, the face feature and electronic equipment of feature-be used to record apart from mapping table user
Between corresponding relation.
In one embodiment, method may also include:
Determine the multiple distance values between the face and display screen of the user of electronic equipment;
Determine that camera head is special with multiple faces that the face of user is captured when multiple distance values are separated by
Levy;
According to multiple distance values and multiple face features to feature-calibrated apart from mapping table.
In one embodiment, the first side-play amount of spatial offset including the first axial direction, the of the second axial direction
Two side-play amounts and the 3rd side-play amount of the 3rd axial direction, electronics is determined according to space length, spatial offset
Display content of the display screen of equipment in current point in time, it may include:
According to the display content in the first side-play amount and the second side-play amount adjustment display screen first axially and the
The display location of two axial directions;
Determined the display content of current point in time relative to the upper time according to the 3rd side-play amount and space length
The displaying ratio of point;
The size of the display content of current point in time is adjusted according to displaying ratio.
In one embodiment, determine that the display content of current point in time is relative according to the 3rd side-play amount and distance
In the step of the displaying ratio at a upper time point, displaying ratio can be determined by following equation:
θ=(d+ Δs z)/d, wherein, Δ z represents the 3rd side-play amount, d representation space distances;
In one embodiment, the step of size of display content of current point in time is adjusted according to displaying ratio
In, the size of the display content of current point in time can be adjusted by following equation:
S '=θ * s, wherein, s ' represents the size of the corresponding display content of current point in time, and s is represented
The size of one time point corresponding display content.
In one embodiment, method may also include:
Determine the human eye of user visual attention location point on a display screen;
Display content of the display screen in current point in time is adjusted centered on visual attention location point.
In one embodiment, method may also include:
By acceleration transducer on electronic equipment detect electronic equipment first axially, second axially with
And the 3rd axially each self-corresponding side-play amount whether in a preset range;
If the first axial direction, the second axial direction and the 3rd each self-corresponding side-play amount in axial direction are within a preset range,
Determine that electronic equipment is in standard vibration pattern, perform and determine that the display screen of electronic equipment sets with handheld electronic
The step of the distance between standby face of user.
Specifically how visual balance is realized, refer to subsequent embodiment.
So far, the above method that the embodiment of the present disclosure is provided, can alleviate user in walking or riding process
In visual discomfort sense when watching electronic equipment under the scene rocked, by display content and vibrations direction
Matching, it is to avoid the focusing repeatedly of eyeball, alleviates visual fatigue sense, reduces the injury to eyes, and raising is read
Read efficiency, greatly improve Consumer's Experience.
The technical scheme that the embodiment of the present disclosure is provided is illustrated with specific embodiment below.
Fig. 3 A are the flow charts of the method for realizing visual balance according to an exemplary embodiment one,
Fig. 3 B are the flows to feature-be updated apart from mapping table according to an exemplary embodiment one
Figure;The above method that the present embodiment is provided using the embodiment of the present disclosure, how to determine electronic equipment and hand
It is illustrative as a example by space length between the face of the user for holding the electronic equipment, such as Fig. 3 A
It is shown, comprise the following steps:
In step S301, capture the user's of hand-hold electronic equipments by the camera head of electronic equipment
Face feature.
In one embodiment, face feature can include the size of human eye, the size of face, face it is big
It is small etc..
In step s 302, the distance corresponding with face feature is searched from feature-apart from mapping table,
Distance is defined as the distance between display screen and face, the face of feature-be used to record apart from mapping table user
Corresponding relation between portion's feature and electronic equipment.
In one embodiment, the feature on electronic equipment-can be logical for electronic equipment provider apart from mapping table
Cross the experiment of magnanimity face to obtain the mapping relations between facial characteristics and space length, for example, when electricity
When the face width that the camera head of sub- equipment captures user is a1 pixel, reflected in feature-distance
The corresponding space lengths of a1 are searched in firing table, the corresponding space lengths of the a1 can be considered as electronic equipment
The space length and face of user between, in one embodiment, can also be by the shooting of electronic equipment
When the size that device captures the human eye of user is b1 pixel, in feature-lookup in mapping table
The corresponding space lengths of b1, the corresponding space lengths of the b1 can be considered as the people of electronic equipment and user
Space length between face.Due to electronic equipment provider obtained by the experiment of magnanimity face feature-
Apart from mapping table, size and the space of therefore this feature-illustrated to a certain extent apart from mapping table face
Corresponding relation between distance, such that it is able to reduce the complexity that electronic equipment calculates space length.
Due to the difference of user's face feature, display screen is corresponding with the facial characteristics of the distance between face
Relation also has a difference, the disclosure can to feature-be updated apart from mapping table so that feature-away from
The feature of user can be embodied from mapping table, as shown in Figure 3 B, is comprised the following steps:
In step S311, the multiple distances between the face and display screen of the user of electronic equipment are determined
Value.
In step S312, determine that camera head and the face of user are captured when multiple distance values are separated by
The multiple face features for arriving.
In step S313, according to multiple distance values and multiple face features to feature-enter apart from mapping table
Row calibration.
In one embodiment, when user uses electronic equipment for the first time, in order that feature-apart from mapping table more
The corresponding relation between the facial characteristics of the user and space length can be embodied, electronics can used
The facial characteristics of user is gathered during equipment under different space lengths by camera head, by facial special
Levy with space length to feature-calibrated apart from mapping table, so that the feature-distance after calibration maps
Table can more accurately represent the relation between the facial characteristics of the user and space length.
In the present embodiment, by feature-in mapping table search the space corresponding with face feature away from
From the space length being defined as into the distance between display screen and face, because electronic equipment provider is logical
Cross the experiment of magnanimity face to obtain feature-apart from mapping table, therefore this feature-apart from mapping table is certain
The corresponding relation between the size of face and space length is illustrated in degree, is set such that it is able to reduce electronics
The standby complexity for calculating space length;By facial characteristics and space length to feature-carried out apart from mapping table
Calibration, so that the facial characteristics of feature-can more accurately be represented apart from the mapping table user after calibration
Relation between space length.
Fig. 4 A are the flow charts of the method for realizing visual balance according to an exemplary embodiment two,
Fig. 4 B are to realize one of scene graph of method of visual balance according to an exemplary embodiment two,
Fig. 4 C are the two of the scene graph of the method for realizing visual balance according to an exemplary embodiment two;
The above method that the present embodiment is provided using the embodiment of the present disclosure, how to pass through the space length, institute
State spatial offset and adjust the display screen of the electronic equipment and be in the display content of the current point in time
Example is illustrative, in the present embodiment, first side-play amount of the spatial offset including the first axial direction,
Second side-play amount of the second axial direction and the 3rd side-play amount of the 3rd axial direction, wherein, the first axial direction and second
The plane of the display screen of electronic equipment is axially parallel to, the 3rd is axially perpendicular to the display screen of electronic equipment
Plane, as shown in Figure 4 A, comprises the following steps:
In step S401, detect that electronic equipment exists by the acceleration transducer on electronic equipment
First axial direction, second are axially and whether the 3rd each self-corresponding side-play amount in axial direction is in a preset range
It is interior.
In step S402, if the first axial direction, the second axial direction and the 3rd are axially each corresponding
Side-play amount within a preset range, determine electronic equipment be in standard vibration pattern.
In step S401 and step S402, by the acceleration transducer on electronic equipment according to
First axle box, second are axially and electronics is monitored in the change of the 3rd axial each self-corresponding side-play amount
The shock conditions of equipment.In one embodiment, preset range can walk by mass users
Or vibrations situation during carrying electronic equipment in riding process is tested.
In step S403, determine between the face of user of electronic equipment and hand-hold electronic equipments
Space length.
In step s 404, determine the first locus of electronic equipment current point in time relative to electronics
Spatial offset of the equipment in the second space position at a upper time point.
The associated description of step S403 and step S404 may refer to the phase of above-mentioned Fig. 2A illustrated embodiments
Description is closed, be will not be described in detail herein.
In step S405, according in the display in the first side-play amount and the second side-play amount adjustment display screen
Hold the display location in the first axial direction and the second axial direction.
In one embodiment, as shown in Figure 4 B, there is the first skew relative to human eye in electronic equipment 11
Amount Δ x and the second offset Δ y when, on the display screen of electronic equipment 11 shown word also relative to
Electronic equipment 11 occurs-the Δ x, change of-Δ y, therefore by adjusting display content first axially and the
The display location of two axial directions, it can be ensured that display content is constant with respect to human eye, so as to realize human eye flat
Row is in the visual balance in the plane of electronic equipment 11.
In step S406, determined in the display of current point in time according to the 3rd side-play amount and space length
Held the displaying ratio relative to a upper time point.
In one embodiment, displaying ratio can be determined by following equation:
θ=(d+ Δs z)/d, wherein, Δ z represents the 3rd side-play amount, d representation space distances.
In step S 407, the size of the display content of current point in time is adjusted according to displaying ratio.
In one embodiment, the size of the display content of current point in time can be adjusted by following equation:s’
=θ * s, wherein, s ' represents the size of the corresponding display content of current point in time, and s represents a time point
The size of corresponding display content.
As an exemplary scenario, as shown in Figure 4 C, when electronic equipment 11 shakes relative to human eye
When dynamic, acceleration transducer can monitor first axially, second axially, the 3rd axial three axial directions
(Δ x, Δ y, Δ z), camera head on electronic equipment 11 can be with by above-described embodiment for changing value
Eyeball to the space length d between electronic equipment is obtained, then electronic equipment needs display in current point in time
The size s ' of content is relative to value i.e. the s '=θ * s for showing size s before.
In the present embodiment, zoomed in and out by the content for needing display in current point in time on electronic equipment
And translation, such that it is able to compensate the change of the vision that electronic equipment shattering zone comes, the balance of vision is realized,
Improve the Consumer's Experience that user is set under vibrations scene using electronics walking, by bus etc..
Fig. 5 A are the flow charts of the method for realizing visual balance according to an exemplary embodiment three,
Fig. 5 B are to realize one of scene graph of method of visual balance according to an exemplary embodiment three,
Fig. 5 C are the two of the scene graph of the method for realizing visual balance according to an exemplary embodiment three,
Fig. 5 C are the three of the scene graph of the method for realizing visual balance according to an exemplary embodiment three,
Fig. 5 E are the four of the scene graph of the method for realizing visual balance according to an exemplary embodiment three;
The above method that the present embodiment is provided using the embodiment of the present disclosure, how to adjust centered on visual attention location point
Display screen is illustrative as a example by the display content of current point in time, as shown in Figure 5A, including
Following steps:
In step S501, the human eye of user visual attention location point on a display screen is determined.
In step S502, display of the display screen in current point in time is adjusted centered on visual attention location point
Content.
As an exemplary scenario, as shown in Figure 5 B, can be by the preposition shooting of electronic equipment 11
The face of first 51 identifying user and eyeball position, and then human eye is obtained aobvious by the focusing of eyeball
Visual attention location point in display screen.Moved in the content for needing to show the current point in time of electronic equipment 11
During scaling, the content that current point in time shows can be adjusted centered on visual attention location point, so that
Ensure that the display content of visual attention location point position is held essentially constant.With in Fig. 5 B, Fig. 5 C, Fig. 5 D
Three visual attention location point 52, visual attention location point 53, visual attention location points 54 as a example by it is illustrative,
Front camera 51 follow the trail of determine human eye visual attention location point be distributed in the upper left of display screen, the right side in, it is left
Lower three positions.When the display content at a upper time point of electronic equipment 11 is the content shown in Fig. 5 E
When, respective visual attention location point 52, the visual attention location point 53, vision in Fig. 5 B to Fig. 5 D are monitored
During focus 54, three kinds of different display effects shown in Fig. 5 E can be corresponded to, thereby may be ensured that
The content that electronic equipment 11 is shown in current point in time will not give ongoing reading when zooming in and out
Bring influence.
Fig. 6 is a kind of block diagram of the device for realizing visual balance according to an exemplary embodiment, such as
Shown in Fig. 6, realizing the device of visual balance includes:
First determining module 61, is configured to determine that the face of electronic equipment and the user of hand-hold electronic equipments
Between space length;
Second determining module 62, is configured to determine that the first locus of electronic equipment current point in time is relative
In electronic equipment a upper time point spatial offset;
First adjusting module 63, is configured as space length, the determined according to the first determining module 61
The display screen of the spatial offset adjustment electronic equipment that two determining module 62 determines is in the aobvious of current point in time
Show content.
Fig. 7 is the block diagram of the device that another kind according to an exemplary embodiment realizes visual balance,
As shown in fig. 7, on the basis of above-mentioned embodiment illustrated in fig. 6, in one embodiment, first determines mould
Block 61 may include:
Feature captures submodule 611, is configured to the camera head capture handheld electronic of electronic equipment
The face feature of the user of equipment;
Submodule 612 is searched, is configured as being searched from feature-apart from mapping table and is captured submodule with feature
The corresponding space length of 611 face features for obtaining, by space length be defined as display screen and face it
Between space length, feature-apart from mapping table be used for record between the face feature of user and electronic equipment
Corresponding relation.
In one embodiment, device may also include:
3rd determining module 64, is configured many between the face of the user of determination electronic equipment and display screen
Individual distance value;
4th determining module 65, is configured to determine that camera head is being separated by multiple distance values with the face of user
When multiple face features for capturing;
Calibration module 66, is configured as the multiple distance values and the 4th obtained according to the 3rd determining module 64
What determining module 65 was obtained is even number multiple face features to feature-calibrated apart from mapping table, for
Submodule 612 is searched according to the feature after calibration-distance mapping table search space length.
In one embodiment, the first side-play amount of spatial offset including the first axial direction, the of the second axial direction
Two side-play amounts and the 3rd side-play amount of the 3rd axial direction, the first adjusting module 63 may include:
First adjustment submodule 631, is configured as according to the first side-play amount and the adjustment display of the second side-play amount
Display content on screen is in the first axial direction and the display location of the second axial direction;
First determination sub-module 632, when being configured as determining current according to the 3rd side-play amount and space length
Between put display content relative to a upper time point displaying ratio;
Second adjustment submodule 633, is configured as the display ratio determined according to the first determination sub-module 632
The size of the display content of example adjustment current point in time.
In one embodiment, the first determination sub-module 632 can determine displaying ratio by following equation:
θ=(d+ Δs z)/d, wherein, Δ z represents the 3rd side-play amount, d representation space distances;
In one embodiment, the second adjustment submodule 633 can adjust current point in time by following equation
The size of display content:
S '=θ * s, wherein, s ' represents the size of the corresponding display content of current point in time, and s represents one
The size of time point corresponding display content.
Fig. 8 is the block diagram of the device that another according to an exemplary embodiment realizes visual balance,
As shown in figure 8, on the basis of above-mentioned Fig. 6 or embodiment illustrated in fig. 7, in one embodiment, device
May also include:
5th determining module 67, is configured to determine the human eye visual attention location point on a display screen of user;
Second adjusting module 68, in being configured as being with the visual attention location point of the determination of the 5th determining module 67
The heart adjusts display content of the display screen in current point in time.
In one embodiment, device may also include:
Detection module 69, the acceleration transducer detection electronic equipment being configured on electronic equipment exists
First axial direction, second are axially and whether the 3rd each self-corresponding side-play amount in axial direction is in a preset range;
If the first axial direction, second that detection module 69 is detected are axially and the 3rd is axially each self-corresponding
Side-play amount within a preset range, determines that electronic equipment is in standard vibration pattern, the first determining module 61
Perform the step of the display screen with the distance between the face of user of hand-hold electronic equipments that determine electronic equipment
Suddenly.
On the device in above-described embodiment, wherein modules perform the concrete mode for operating and are having
It has been described in detail in the embodiment for closing the method, explanation will be not set forth in detail herein.
Fig. 9 is a kind of frame of the device for being adapted to carry out visual balance according to an exemplary embodiment
Figure.For example, device 900 can be mobile phone, computer, digital broadcast terminal, information receiving and transmitting sets
It is standby, game console, tablet device, Medical Devices, body-building equipment, personal digital assistant etc..
Reference picture 9, device 900 can include following one or more assemblies:Processing assembly 902, storage
Device 904, power supply module 906, multimedia groupware 908, audio-frequency assembly 910, input/output (I/O)
Interface 912, sensor cluster 914, and communication component 916.
The integrated operation of the usual control device 900 of processing assembly 902, such as with display, call,
Data communication, camera operation and the associated operation of record operation.Treatment element 902 can include one
Or multiple processors 920 carry out execute instruction, to complete all or part of step of above-mentioned method.Additionally,
Processing assembly 902 can include one or more modules, be easy between processing assembly 902 and other assemblies
Interaction.For example, processing component 902 can include multi-media module, to facilitate multimedia groupware 908
And the interaction between processing assembly 902.
Memory 904 is configured as storing various types of data supporting the operation in equipment 900.This
The example of a little data includes the instruction for any application program or method operated on device 900, connection
It is personal data, telephone book data, message, picture, video etc..Memory 904 can be by any types
Volatibility or non-volatile memory device or combinations thereof realize, such as static RAM
(SRAM), Electrically Erasable Read Only Memory (EEPROM), erasable programmable is read-only
Memory (EPROM), programmable read only memory (PROM), read-only storage (ROM),
Magnetic memory, flash memory, disk or CD.
Electric power assembly 906 provides electric power for the various assemblies of device 900.Electric power assembly 906 can include
Power-supply management system, one or more power supplys, and other with generate, manage and distribute electricity for device 900
The associated component of power.
Multimedia groupware 908 is included in one output interface of offer between described device 900 and user
Screen.In certain embodiments, screen can include liquid crystal display (LCD) and touch panel (TP).
If screen includes touch panel, screen may be implemented as touch-screen, to receive the input from user
Signal.Touch panel includes one or more touch sensors with sensing touch, slip and touch panel
Gesture.The touch sensor can not only sensing touch or sliding action border, but also detect
The duration related to the touch or slide and pressure.In certain embodiments, multimedia group
Part 908 includes a front camera and/or rear camera.When equipment 900 is in operator scheme, such as
When screening-mode or video mode, front camera and/or rear camera can receive outside multimedia
Data.Each front camera and rear camera can be a fixed optical lens system or have
Focusing and optical zoom capabilities.
Audio-frequency assembly 910 is configured as output and/or input audio signal.For example, audio-frequency assembly 910 is wrapped
A microphone (MIC) is included, when device 900 is in operator scheme, such as call model, logging mode
During with speech recognition mode, microphone is configured as receiving external audio signal.The audio signal for being received
Can be further stored in memory 904 or be sent via communication component 916.In certain embodiments,
Audio-frequency assembly 910 also includes a loudspeaker, for exports audio signal.
I/O interfaces 912 are that interface, above-mentioned periphery are provided between processing assembly 902 and peripheral interface module
Interface module can be keyboard, click wheel, button etc..These buttons may include but be not limited to:Homepage is pressed
Button, volume button, start button and locking press button.
Sensor cluster 914 includes one or more sensors, for providing various aspects for device 900
State estimation.For example, sensor cluster 914 can detect the opening/closed mode of equipment 900,
The relative positioning of component, such as described component is the display and keypad of device 900, sensor cluster
914 can be with the change of the position of 900 1 components of detection means 900 or device, user and device 900
Presence or absence of, the temperature change of the orientation of device 900 or acceleration/deceleration and device 900 of contact.Pass
Sensor component 914 can include proximity transducer, be configured to be examined when without any physical contact
Survey the presence of object nearby.Sensor cluster 914 can also include optical sensor, such as CMOS or CCD
Imageing sensor, for being used in imaging applications.In certain embodiments, the sensor cluster 914
Acceleration transducer can also be included, gyro sensor, Magnetic Sensor, pressure sensor or temperature are passed
Sensor.
Communication component 916 is configured to facilitate wired or wireless way between device 900 and other equipment
Communication.Device 900 can access the wireless network based on communication standard, such as WiFi, 2G or 3G, or
Combinations thereof.In one exemplary embodiment, communication component 916 is received via broadcast channel and come from
The broadcast singal or broadcast related information of external broadcasting management system.In one exemplary embodiment, institute
Stating communication component 916 also includes near-field communication (NFC) module, to promote junction service.For example,
NFC module can be based on radio frequency identification (RFID) technology, and Infrared Data Association (IrDA) technology surpasses
Broadband (UWB) technology, bluetooth (BT) technology and other technologies are realized.
In the exemplary embodiment, device 900 can be by one or more application specific integrated circuits
(ASIC), digital signal processor (DSP), digital signal processing appts (DSPD), can compile
It is journey logical device (PLD), field programmable gate array (FPGA), controller, microcontroller, micro-
Processor or other electronic components are realized, for performing the above method.
In the exemplary embodiment, a kind of non-transitory computer-readable storage including instructing is additionally provided
Medium, such as, including the memory 904 for instructing, above-mentioned instruction can be held by the processor 920 of device 900
Go to complete the above method.For example, the non-transitorycomputer readable storage medium can be ROM,
Random access memory (RAM), CD-ROM, tape, floppy disk and optical data storage devices etc..
Those skilled in the art will readily occur to this after considering specification and putting into practice disclosure disclosed herein
Disclosed other embodiments.The application is intended to any modification, purposes or the adaptability of the disclosure
Change, these modifications, purposes or adaptations follow the general principle of the disclosure and including this public affairs
Open undocumented common knowledge or conventional techniques in the art.Description and embodiments only by
It is considered as exemplary, the true scope of the disclosure and spirit are pointed out by following claim.
It should be appreciated that the disclosure be not limited to be described above and be shown in the drawings it is accurate
Structure, and can without departing from the scope carry out various modifications and changes.The scope of the present disclosure is only by institute
Attached claim is limited.
Claims (15)
1. a kind of method for realizing visual balance, it is characterised in that methods described includes:
Determine electronic equipment and the hand-held electronic equipment user face between space length;
Determine the first locus of the electronic equipment current point in time relative to the electronic equipment upper
The spatial offset at one time point;
The display screen of the electronic equipment is adjusted described according to the space length, the spatial offset
The display content of current point in time.
2. method according to claim 1, it is characterised in that the determination electronic equipment with it is hand-held
Space length between the face of the user of the electronic equipment, including:
The face feature of the user of the hand-held electronic equipment is captured by the camera head of electronic equipment;
Search the distance corresponding with the face feature from feature-apart from mapping table, by the space away from
From being defined as the distance between the display screen and face, the feature-be used to record user apart from mapping table
Face feature and the electronic equipment between corresponding relation.
3. method according to claim 2, it is characterised in that methods described also includes:
Determine the multiple distance values between the face of the user of the electronic equipment and the display screen;
Determine what the camera head and the face of the user were captured when the multiple distance value is separated by
Multiple face features;
According to the multiple distance value and the multiple face feature to the feature-carried out apart from mapping table
Calibration.
4. method according to claim 1, it is characterised in that the spatial offset includes first
3rd side-play amount of first side-play amount, the second side-play amount of the second axial direction and the 3rd axial direction of axial direction, institute
The display screen for adjusting the electronic equipment according to the space length, the spatial offset is stated to work as described
The display content at preceding time point, including:
The display content on the display screen is adjusted according to first side-play amount and second side-play amount to exist
First axial direction and the display location of second axial direction;
The display content phase of the current point in time is determined according to the 3rd side-play amount and the space length
For the displaying ratio at a upper time point;
The size of the display content of the current point in time is adjusted according to the displaying ratio.
5. method according to claim 4, it is characterised in that
It is described to be determined in the display of the current point in time according to the 3rd side-play amount and the space length
In the step of holding the displaying ratio relative to a upper time point, the display is determined by following equation
Ratio:
θ=(d+ Δs z)/d, wherein, Δ z represents the 3rd side-play amount, and d represents the space length;
The step of size of the display content that the current point in time is adjusted according to the displaying ratio
In, the size of the display content of the current point in time is adjusted by following equation:
S '=θ * s, wherein, s ' represents the size of the corresponding display content of the current point in time, and s is represented
The size of upper time point corresponding display content.
6. method according to claim 1, it is characterised in that methods described also includes:
Determine visual attention location point of the human eye of the user on the display screen;
Display content of the display screen in the current point in time is adjusted centered on the visual attention location point.
7. method according to claim 1, it is characterised in that methods described also includes:
By acceleration transducer on the electronic equipment detect the electronic equipment first axially, the
Whether two axial directions and the 3rd each self-corresponding side-play amount in axial direction are in a preset range;
If first axial direction, second are axially and the 3rd each self-corresponding side-play amount in axial direction is described pre-
If in scope, determining that the electronic equipment is in standard vibration pattern, the determination electronic equipment is performed
The step of the distance between display screen and face of user of the hand-held electronic equipment.
8. a kind of device for realizing visual balance, it is characterised in that described device includes:
First determining module, is configured to determine that the people of electronic equipment and the user of the hand-held electronic equipment
Space length between face;
Second determining module, is configured to determine the first locus phase of the electronic equipment current point in time
For the electronic equipment a upper time point spatial offset;
First adjusting module, be configured as according to first determining module determine the space length,
The spatial offset that second determining module determines adjusts the display screen of the electronic equipment described
The display content of current point in time.
9. device according to claim 8, it is characterised in that first determining module includes:
Feature captures submodule, and the camera head for being configured to electronic equipment captures the hand-held electronics
The face feature of the user of equipment;
Submodule is searched, is configured as being searched from feature-apart from mapping table and feature capture submodule
The corresponding space length of the face feature that obtains, the display screen is defined as by the space length
Space length between face, the feature-be used to record face feature and the institute of user apart from mapping table
State the corresponding relation between electronic equipment.
10. device according to claim 9, it is characterised in that described device also includes:
3rd determining module, the face and the display screen of the user for being configured to determine the electronic equipment it
Between multiple distance values;
4th determining module, be configured to determine the face of the camera head and the user be separated by it is described
The multiple face features captured during multiple distance values;
Calibration module, is configured as the multiple distance value and the institute obtained according to the 3rd determining module
State that the 4th determining module obtains is even number multiple face features to the feature-carry out school apart from mapping table
It is accurate.
11. devices according to claim 8, it is characterised in that the spatial offset includes the
3rd side-play amount of the first side-play amount of one axial direction, the second side-play amount of the second axial direction and the 3rd axial direction,
First adjusting module includes:
First adjustment submodule, is configured as being adjusted according to first side-play amount and second side-play amount
Display content on the display screen is in the described first axial direction and the display location of second axial direction;
First determination sub-module, is configured as determining institute according to the 3rd side-play amount and the space length
Stated the displaying ratio of the display content relative to a upper time point of current point in time;
Second adjustment submodule, is configured as the display ratio determined according to first determination sub-module
The size of the display content of the example adjustment current point in time.
12. devices according to claim 11, it is characterised in that
First determination sub-module determines the displaying ratio by following equation:
θ=(d+ Δs z)/d, wherein, Δ z represents the 3rd side-play amount, and d represents the space length;
The second adjustment submodule adjusts the big of the display content of the current point in time by following equation
It is small:
S '=θ * s, wherein, s ' represents the size of the corresponding display content of the current point in time, and s is represented
The size of upper time point corresponding display content.
13. devices according to claim 8, it is characterised in that described device also includes:
5th determining module, is configured to determine visual attention location of the human eye of the user on the display screen
Point;
Second adjusting module, be configured as with the 5th determining module determine the visual attention location point be
Center adjusts display content of the display screen in the current point in time.
14. devices according to claim 8, it is characterised in that described device also includes:
Detection module, the acceleration transducer being configured on the electronic equipment detects the electronics
Whether equipment is in the first axial direction, the second axial direction and the 3rd each self-corresponding side-play amount in axial direction in a default model
In enclosing;
If first axial direction, second that the detection module is detected are axially and the 3rd is axially respective
Corresponding side-play amount determines that the electronic equipment is in standard vibration pattern, institute in the preset range
State the user that the first determining module performs the display screen and the hand-held electronic equipment for determining electronic equipment
The distance between face the step of.
15. a kind of electronic equipment, it is characterised in that the electronic equipment includes:
Processor;
Memory for storing processor-executable instruction;
Wherein, the processor is configured as:
Determine electronic equipment and the hand-held electronic equipment user face between space length;
Determine the first locus of the electronic equipment current point in time relative to the electronic equipment upper
The spatial offset at one time point;
The display screen of the electronic equipment is adjusted described according to the space length, the spatial offset
The display content of current point in time.
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