CN103297667B - A kind of electronic equipment and the method obtaining image information - Google Patents
A kind of electronic equipment and the method obtaining image information Download PDFInfo
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- CN103297667B CN103297667B CN201210046680.1A CN201210046680A CN103297667B CN 103297667 B CN103297667 B CN 103297667B CN 201210046680 A CN201210046680 A CN 201210046680A CN 103297667 B CN103297667 B CN 103297667B
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Abstract
The invention discloses a kind of electronic equipment and the method obtaining image information, wherein, it is thus achieved that the method for image information, apply in an electronic equipment, described electronic equipment includes: camera lens;Imageing sensor, described imageing sensor is included in a line M sensitive zones of distribution, and wherein, M is the integer more than or equal to 2;Driving means, is connected with described camera lens, comprises the steps: when in the T1 moment, when needing imaging in the ith zone in described M sensitive zones, generating first control instruction corresponding with described ith zone;Based on described first control instruction, by controlling described driving means, described camera lens is driven to be adjusted to first angle corresponding with described ith zone;In described first angle, being obtained by described camera lens and need the image information of the camera body in described ith zone imaging, wherein, described i is the integer more than zero and less than or equal to described M.
Description
Technical field
The present invention relates to acquisition technology field, particularly relate to a kind of electronic equipment and obtain image information
Method.
Background technology
Along with the development of electronic technology, from strength to strength, wherein, great majority move the function of electronic equipment
Galvanic electricity subset is fitted with pinhole cameras, such as smart mobile phone.
And current smart mobile phone, such as Apple iphone4s, the imageing sensor of employing is all large-area many
The rectangular block CMOS array of row multiple row, the size of large aperture is all limited, when passing through pinhole cameras
When taking pictures object, the mode that CMOS uses row to sweep gathers the data being photographed object, so,
Having the most photosensitive on time is waste, and in other words, the most photosensitive CMOS will not gather
It is photographed the data of object, such as: when one books being taken pictures by described pinhole cameras, pin hole
CMOS array in photographic head can gather the data of books by the way of row is swept to books, and generally books
There is multiple color on surface, e.g., and redness, yellow, black etc., so, when pinhole cameras gathers data,
The color of the photo taken is red and yellow is not it is obvious that green can be partial to, and due to light during shooting
Will not change, so, the dead angle part shooting of books is not got off.
The applicant, during realizing technical solution of the present invention, finds that prior art at least exists following skill
Art problem:
One, mobile electronic device when gathering the data of object by pinhole cameras, due to pinhole cameras
The size of large aperture limited, so, logical light quantity can be caused smaller, thus when causing gathering object data
Occur that resolution and color mutually restrict, gather the problem that the ability of data is the lowest.
Two, the pinhole cameras of mobile electronic device is when gathering the data of object, can not each by object
The data acquisition of individual position is arrived, thus causes the data gathered and real data to there is certain difference.
Summary of the invention
The present invention provides a kind of electronic equipment and the method obtaining image information, is used for solving to deposit in prior art
The color of the limited data making to gather of the size of pinhole camera lens aperture and resolution mutually restrict,
Gather the technical problem that the ability of data is the lowest.
On the one hand, the present invention is by embodiment one in the application, it is provided that following technical scheme:
A kind of electronic equipment, including:
Casing;
Camera lens, is arranged on the housing;
Imageing sensor, described imageing sensor is included in a line M sensitive zones of distribution, described figure
As sensor is arranged in described casing, being connected with described camera lens, wherein, M is the integer more than or equal to 2;
Driving means, is arranged in described casing, is connected with described camera lens;
Wherein, when in the T1 moment, when needing imaging in the ith zone in described M sensitive zones,
Based on first control instruction corresponding with described ith zone, control described driving means, described to drive
Camera lens is adjusted to first angle corresponding with described ith zone, and then obtains needs in institute by described camera lens
Stating the image information of the camera body of ith zone imaging, wherein, described i is for more than zero and less than or equal to institute
State the integer of M.
Alternatively, described electronic equipment also includes sequential logical circuit, respectively with described imageing sensor and institute
State driving means to connect, be used for generating described first control instruction.
Alternatively, when in the T2 moment, needing imaging on i+1 the region in described M sensitive zones
Time, described sequential logical circuit is additionally operable to generate second control instruction corresponding with described i+1 region;
Described driving means is additionally operable to, and based on described second control instruction, drives described camera lens to be adjusted to and institute
State the second angle that i+1 region is corresponding, and then obtain needs in described i+1 district by described camera lens
The image information of the camera body of domain imaging, wherein, described first angle is different from described second angle
Angle.
Alternatively, in described M sensitive zones, each sensitive zones is photosensitive by described camera lens and obtains
During the image information of corresponding camera body, described imageing sensor is additionally operable to output and includes described M sensing
The image of region correspondence image information.
Alternatively, described camera lens is pinhole camera lens.
Additionally, the present invention provides following technical scheme also by the embodiment two in the application:
A kind of method obtaining image information, applies in an electronic equipment, and described electronic equipment includes: mirror
Head;Imageing sensor, described imageing sensor be included in a line distribution M sensitive zones, wherein,
M is the integer more than or equal to 2;Driving means, is connected with described camera lens, including:
When in the T1 moment, when needing imaging in the ith zone in described M sensitive zones, generating one
First control instruction corresponding with described ith zone;
Based on described first control instruction, by controlling described driving means, drive described camera lens be adjusted to
The first angle that described ith zone is corresponding;
In described first angle, obtained by described camera lens and need the camera body in described ith zone imaging
Image information, wherein, described i is more than zero and less than or equal to the integer of described M.
Alternatively, in described first angle, obtained by described camera lens and need in described ith zone imaging
After the image information of camera body, described method also includes:
When in the T2 moment, when needing imaging on i+1 the region in described M sensitive zones, generating
One second control instruction corresponding with described i+1 region;
Based on described second control instruction, by controlling described driving means, drive described camera lens be adjusted to
The second angle that described i+1 region is corresponding;
In described second angle, obtained by described camera lens and need being imaged at described i+1 regional imaging
The image information of body, wherein, described first angle is different angles from described second angle.
Alternatively, in described second angle, obtained by described camera lens and need at described i+1 regional imaging
Camera body image information after, described method also includes:
Judge that in M sensitive zones, each sensitive zones is the most photosensitive by described camera lens and obtains correspondence
The image information of camera body;
In M sensitive zones, each sensitive zones is photosensitive by described camera lens and obtains being imaged of correspondence
During the image information of body, include described M sensitive zones correspondence image letter by the output of described imageing sensor
The image of breath.
Alternatively, described camera lens is pinhole camera lens.
One or more technical schemes in technique scheme, at least have the following technical effect that or advantage:
By have employed liquid lens, Mems technology realizes the rotation of camera lens, and uses band large scale sense
Light CMOS, as the technological means of photosensitive unit, solves pinhole camera lens size present in prior art
The technical problem that the color of the limited data making to gather and resolution mutually restrict so that pinhole camera lens
The reduction of high color has been reached photosensitive when the mode swept according to row gathers view data, and can be according to the need of user
Adjust the technique effect of photosensitive size.
Accompanying drawing explanation
Fig. 1 is the system construction drawing of electronic equipment in the embodiment of the present application one;
Fig. 2 is the method flow diagram obtaining image information in the embodiment of the present application two;
Fig. 3 is to gather the structure of image information of camera body in the first moment in the embodiment of the present application one or two
Figure;
Fig. 4 is to gather the structure of image information of camera body in the second moment in the embodiment of the present application one or two
Figure;
Fig. 5 is to gather the structure of image information of camera body in the kth moment in the embodiment of the present application one or two
Figure.
Detailed description of the invention
In order to make the application the technical staff in the technical field be more clearly understood that the present invention, below in conjunction with
Accompanying drawing, is described in detail technical solution of the present invention by specific embodiment.
Refer to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, a kind of electronic equipment 10 in the embodiment of the present application one,
Including:
Casing 20;
Camera lens 30, is arranged in described casing 20;
Imageing sensor 40, described imageing sensor 40 is included in a line M sensitive zones of distribution,
Described imageing sensor 40 is arranged in described casing 20, is connected with described camera lens 30, and wherein, M is big
In the integer equal to 2;
Driving means 50, is arranged in described casing 20, is connected with described camera lens 30;
Wherein, when in the T1 moment, when needing imaging in the ith zone in described M sensitive zones,
Based on first control instruction corresponding with described ith zone, control described driving means 50, to drive
Described camera lens 30 is adjusted to first angle corresponding with described ith zone, and then is obtained by described camera lens 30
Must need the image information of camera body in described ith zone imaging, wherein, described i be more than zero and
Integer less than or equal to described M.
Additionally, described electronic equipment also includes: sequential logical circuit 60, respectively with described imageing sensor 40
Connect with described driving means 50, be used for generating described first control instruction.
Specifically, described imageing sensor 40 is specially CMOS photoreceptors, described CMOS photoreceptors
Only one large scale CMOS array, the most only has large scale CMOS array, instead of existing in a line
The rectangular block CMOS array of multiple lines and multiple rows, wherein, a described large scale CMOS array is with described
The area equation of the rectangular block CMOS array of multiple lines and multiple rows, e.g., the rectangular block of described multiple lines and multiple rows
CMOS array is that 4 row 4 arrange, altogether 16 rectangular blocks of composition, and each rectangular block area is 1 square of milli
Rice, the area of rectangular block CMOS array of the most described 4 row 4 row is 16 square millimeters, described one big
Size CMOS array is made up of the rectangular block CMOS that 8 areas are 2 square millimeters.
Wherein, a described large scale CMOS array includes M photosensitive band, i.e. M sensitive zones,
Described M sensitive zones is also M rectangular block, in the present embodiment, sets the numerical value of described M as 8.
Specifically, such as electronic equipment 10 as described in needing to use as user, such as smart mobile phone, to an object,
During such as books shooting photo, when the most described books need the imaging in described M sensitive zones, by point
Hit the photographing button on described mobile phone, or touch the operation controlling described camera function on the screen of described mobile phone
Key completes to take pictures described books, wherein, clicks on described photographing button described user or touches described
During the screen of mobile phone, described mobile phone can produce a trigger command, patrol for the sequential triggered in described mobile phone
Collect circuit 60, after described sequential logical circuit 60 receives described trigger command, automatically generate one and described M
Individual, that i.e. 8 sensitive zones are corresponding control instruction, described control instruction is for controlling and described sequential logic
The driving means 50 that circuit 60 connects is opened or is opened, and in a practical situation, described control instruction is all right
The driving means connected for controlling described sequential logical circuit 60 is closed.
Specifically, generally, click on or touch operation is all the operation occurred in a concrete moment, and object
At M, i.e. 8 sensitive zones are at described M, in i.e. 8 sensitive zones is concrete during imaging
Imaging in sensitive zones, therefore, it can to set moment when described user clicks on described photographing button or screen
For the T1 moment, such as 10 points 25 seconds when 5, setting described concrete sensitive zones as i, the numerical value such as described i is
1, then in the described T1 moment, need at described M, the i-th in i.e. 8 sensitive zones, i.e. 1
On region during imaging, described sequential logical circuit 60 can generate one with corresponding 1st, i.e. 1 region pair
The control instruction answered, described control instruction is the first control instruction, is used for controlling described driving means 50 and opens
Or open.
Specifically, described camera lens is the pinhole camera lens that the change according to magnitude of voltage occurs angle to rotate,
And the direction of propagation of light can be made to change, and then make can be photosensitive to thing at different photosensitive regions
The different angles of body, when specifically applying, by using liquid lens Liquid Lens, MEMS Mems
The rotation of described camera lens, and the change of the light direction of propagation is realized etc. technology.
Specifically: the T1 moment as described in, such as 10 points 25 seconds when 5, described sequential logical circuit 60
Described first control instruction of middle generation, and described first control instruction is sent to described driving means 50, institute
Stating the first control instruction and open for controlling described driving means 50 or open, described driving means 50 receives
After described first control instruction, automatically open up or open, and drive connected described camera lens 30, make
Described camera lens 30 is adjusted to and described i-th, the first angle that i.e. 1 region is corresponding, wherein, described in drive
Dynamic device 50 drives described camera lens 30 so that the angle adjustment of described camera lens 30 to described 1st region
The process of corresponding described first angle is particularly as follows: described driving means 50 receives described first control instruction
After, described driving means 50 is opened or is opened, and drives described camera lens 30 according to described first control instruction,
Owing to described camera lens 30 is liquid lens, described liquid lens is filled with liquid, therefore, drives dress described
Putting under the driving of 50, the voltage in described camera lens 30 starts to increase, so that the liquid in described camera lens 30
Body starts to expand, and now, the profile of described camera lens 30 changes, and i.e. expands, and then makes described
Camera lens 30 can rotate, and changes the direction of propagation of light, when described camera lens 30 rotates, rotates
Arrive and described 1st angle that region is corresponding, e.g., drive described camera lens 30 to become 15 with described 1st region
Degree.
When described camera lens 30 and described i-th, when i.e. 1 region becomes 15 degree, obtained by described camera lens 30
Obtaining described object on described 1st region, such as the image information of books, wherein, described camera lens 30 is obtaining
During the image information of described books, the mode swept especially by row gathers the image information of described books automatically,
During swept collection image information by described row, there is the time slice that at least one is small, such as: 1,
2,3 or 4 time slices, described time slice may be set to 0.01s, 0.015s or 0.02s etc.,
Therefore, when the described 15 degree image informations obtaining described books, also it is at described 1,2,3
The sense of special angle to described books is completed in the individual or time slice of 4 0.01s, 0.015s or 0.02s etc.
Light, and controlled by described sequential logical circuit 60 that described 1st CMOS sensitive zones be photosensitive and collection figure
As information.
Additionally, described camera lens 30 great majority are all designed to the rearmounted pick-up lens of described smart mobile phone, therefore,
In specific implementation process, can be designed to protrude the thickness that the described smart mobile phone back side is certain by described camera lens 30
Degree, such as 2mm, or increases certain degree dimensionally by described camera lens 30, as increased 2mm, thus
Increase the photosensitive size of described camera lens 30, and then increase logical light quantity so that being obtained by described camera lens 30 is needed
During such as the image information of books, to improve described by books in the camera body of described ith zone imaging
Photosensitive quality.
Additionally, described electronic equipment 10 also includes:
Signal generating unit, in described first angle, is obtained by described camera lens 30 and needs in described i-th
After the image information of the camera body of regional imaging, when in the T2 moment, needing in described M sensing unit
On i+1 region in territory during imaging, generate second control instruction corresponding with described i+1 region;
Driver element, for based on described second control instruction, by controlling described driving means 50, driving
Described camera lens 30 is adjusted to second angle corresponding with described i+1 region;
Obtain unit, in described second angle, obtained by described camera lens 30 and need in described i+1
The image information of the camera body of individual regional imaging, wherein, described first angle and described second angle are not
Same angle.
Specifically, the T2 moment described here is set as 10 points 26 seconds when 5, and described second angle initialization is
45 degree, certainly, described T2 moment and described second angle can also be set as other numerical value, noticeable
It is, in described T2 moment and the implementation method of the technical scheme of the second angle with in the described T1 moment and first
The implementation method of the technical scheme of angle duplicates, so, the most just it is not described in detail.
Additionally, described electronic equipment 10 also includes:
Judging unit, for obtaining the needs quilt at described i+1 regional imaging by described camera lens 30
After the image information of shooting body, it is judged that in M sensitive zones, whether each sensitive zones is by described mirror
30 photosensitive and obtain the image information of camera body of correspondence;
Output unit, photosensitive also by described camera lens 30 for each sensitive zones in M sensitive zones
When obtaining the image information of corresponding camera body, include described M by the output of described imageing sensor 40
The image of sensitive zones correspondence image information.
Specifically, when in described second angle, when i.e. 45 degree, being obtained by described camera lens 30 and need
Described i+1, i.e. the object of the 2nd regional imaging, after the image information of books, it is judged that described M
Individual, in i.e. 8 sensitive zones, each sensitive zones is the most photosensitive by described camera lens 30 and obtains correspondence
The image information of described books, and produce the one in two kinds of judged results of yes/no, specifically:
One, described judged result is no
When described judged result is no, in M sensitive zones, each sensitive zones is not by described
Camera lens 30 is photosensitive and obtains the camera body of correspondence, during such as the image information of books, by described image sensing
Device 40 output includes the image of each sensitive zones correspondence image information in described M sensitive zones.
In specific implementation process, in the described T2 moment, when i.e. 5 10 points and 26 seconds, and described second angle,
When i.e. 45 degree, obtained by described camera lens 30 and need in described i+1, the i.e. institute of the 2nd regional imaging
After stating the image information of books, by described i-th, i+1, i.e. the 1st, 2 sensitive zones correspondence image letter
The image of breath is merged into an entirety, forms a book image, and is passed through by described complete book image
Described imageing sensor 40 exports.
Two, described judged result is yes
When described judged result is for being, in M sensitive zones, each sensitive zones passes through described camera lens
30 is photosensitive and when obtaining the image information of camera body of correspondence, is included by the output of described imageing sensor 40
The image of described M sensitive zones correspondence image information.
In specific implementation process, in the described T2 moment, when i.e. 5 10 points and 26 seconds, and described second angle,
When i.e. 45 degree, obtained by described camera lens 30 and need in described i+1, the i.e. institute of the 2nd regional imaging
After stating the image information of books, described camera lens continues to rotate to the i-th+2, the i.e. the 3rd region, and at next
The i.e. T3 moment in moment, such as 10 points 27 seconds when 5, and next angle i.e. third angle, during such as 60 degree, logical
Cross camera lens 30 acquisition to need at described the i-th+2, i.e. the object of the 3rd regional imaging, such as the image of books
Information.
In specific implementation process, it is also possible in T4, T5, T6, T7, T8 moment, fourth angle,
Five angles, hexagonal degree, heptangle degree, obtained by camera lens 30 need i-th+3, i+4, i+5, i+6,
The image information of the described books of M regional imaging, is the most just not described in detail, wherein, and the present embodiment
In the described T8 moment be also the kth moment in Fig. 5.
The image information of the books of imaging in described M sensitive zones is needed when being obtained by described camera lens 30
After, the image of described M sensitive zones correspondence image information is merged into an entirety, forms one completely
Book image, and described complete book image is exported by described imageing sensor 40.
Refer to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, the embodiment of the present application two obtains the side of image information
Method, applies in an electronic equipment, and described electronic equipment includes: camera lens;Imageing sensor, described image
Sensor is included in a line M sensitive zones of distribution, and wherein, M is the integer more than or equal to 2;Drive
Dynamic device, is connected with described camera lens, and described method comprises the steps:
Step 201, when in the T1 moment, needing imaging in the ith zone in described M sensitive zones
Time, generate first control instruction corresponding with described ith zone.
In specific implementation process, described imageing sensor is specially CMOS photoreceptors, and described CMOS feels
Light device only has a large scale CMOS array, the most only has large scale CMOS array in a line, instead of
The rectangular block CMOS array of existing multiple lines and multiple rows, wherein, a described large scale CMOS array with
The area equation of the rectangular block CMOS array of described multiple lines and multiple rows, e.g., the rectangle side of described multiple lines and multiple rows
Block CMOS array is that 4 row 4 arrange, altogether 16 rectangular blocks of composition, and each rectangular block area is 1 square
Millimeter, the area of the rectangular block CMOS array of the most described 4 row 4 row is 16 square millimeters, described one
Large scale CMOS array is made up of the rectangular block CMOS that 8 areas are 2 square millimeters.
Wherein, a described large scale CMOS array includes M photosensitive band, i.e. M sensitive zones,
Described M sensitive zones is also M rectangular block, in the present embodiment, sets the numerical value of described M as 8.
In specific implementation process, such as electronic equipment as described in needing to use as user, such as smart mobile phone, right
One object, during such as books shooting photo, when the most described books need the imaging in described M sensitive zones,
By clicking on the photographing button on described mobile phone, or touch and on the screen of described mobile phone, control described camera function
Operated key complete described books are taken pictures, wherein, described user click on described photographing button or touch
When touching the screen of described mobile phone, described mobile phone can produce a trigger command, for triggering in described mobile phone
Sequential logical circuit, after described sequential logical circuit receives described trigger command, automatically generates one with described
M, the control instruction that i.e. 8 sensitive zones are corresponding, described control instruction is patrolled with described sequential for control
The driving means collecting circuit connection is opened or is opened, and in a practical situation, described control instruction can be also used for
Control the driving means closedown that described sequential logical circuit connects.
In concrete implementation process, generally, click on or touch operation is all the behaviour occurred in a concrete moment
Make, and object is at M, i.e. 8 sensitive zones are at described M during imaging, i.e. 8 sensitive zones
In a concrete sensitive zones in imaging, therefore, it can set described user and click on described photographing button or screen
Moment during curtain is the T1 moment, such as 10 points 25 seconds when 5, sets described concrete sensitive zones as i, such as institute
The numerical value stating i is 1, then in the described T1 moment, need at described M, the in i.e. 8 sensitive zones
I, on i.e. 1 region during imaging, described sequential logical circuit can generate one with corresponding 1st, i.e. 1
The control instruction that individual region is corresponding, described control instruction is the first control instruction, is used for controlling described driving and fills
Put and open or open.
Step 202, based on described first control instruction, by controlling described driving means, drives described camera lens
It is adjusted to first angle corresponding with described ith zone;
In specific implementation process, described camera lens is that the pin hole that the change according to magnitude of voltage occurs angle to rotate is taken the photograph
As camera lens, and the direction of propagation of light can be made to change, and then make at different photosensitive regions permissible
The photosensitive different angles to object, when specifically applying, by using liquid lens Liquid Lens, microcomputer
The technology such as electricity system Mems realize the rotation of described camera lens, and the change of the light direction of propagation.
Specifically, such as the T1 moment as described in, such as 10 points 25 seconds when 5, in described sequential logical circuit
Generate described first control instruction, and described first control instruction is sent to described driving means, described
One control instruction is used for controlling described driving means and opens or open, and described driving means receives described first
After control instruction, automatically open up or open, and drive connected described camera lens, make described camera lens adjust
Arriving and described i-th, the first angle that i.e. 1 region is corresponding, wherein, described driving means drives described mirror
Head so that the angle adjustment of described camera lens is to the process of described first angle corresponding with described 1st region
Particularly as follows: after described driving means receives described first control instruction, described driving means is opened or is opened,
And drive described camera lens, owing to described camera lens is liquid lens, described liquid according to described first control instruction
Being filled with liquid in lens, therefore, under the driving of described driving means, the voltage in described camera lens starts to increase
Greatly, so that the liquid in described camera lens starts to expand, now, the profile of described camera lens changes,
I.e. expand, and then described camera lens can be rotated, and change the direction of propagation of light, institute
When stating rotation of lens, rotate to and described 1st angle that region is corresponding, e.g., drive described camera lens and institute
State the 1st region and become 15 degree.
Step 203, in described first angle, is obtained by described camera lens and needs in described ith zone imaging
The image information of camera body, wherein, described i is the integer more than zero and less than or equal to described M.
In specific implementation process, when described camera lens and described i-th, when i.e. 1 region becomes 15 degree, logical
Cross described camera lens and obtain described object on described 1st region, such as the image information of books, wherein, described
Camera lens is when obtaining the image information of described books, and the mode swept especially by row gathers described books automatically
Image information, during swept collection image information by described row, has the timeslice that at least one is small
Section, such as: 1,2,3 or 4 time slices, described time slice may be set to 0.01s, 0.015s
Or 0.02s etc., therefore, when the described 15 degree image informations obtaining described books, also it is described 1
Individual, 2, complete described books in the time slice of 3 or 4 0.01s, 0.015s or 0.02s etc.
Special angle photosensitive, and control described 1st CMOS sensitive zones sense by described sequential logical circuit
Light also gathers image information.
Additionally, the most of rearmounted pick-up lens being all designed to described smart mobile phone of described camera lens, therefore,
In specific implementation process, can become protrude the thickness that the described smart mobile phone back side is certain by described lens design,
Such as 2mm, or described camera lens is increased certain degree dimensionally, as increased 2mm, thus increase described
The photosensitive size of camera lens, and then increase logical light quantity so that being obtained by described camera lens is needed in described i-th district
The camera body of domain imaging, during such as the image information of books, improves described by the photosensitive quality of books.
Additionally, in described first angle, obtained by described camera lens and need the quilt in described ith zone imaging
After the image information of shooting body, described method also comprises the steps:
A1, when in the T2 moment, when needing imaging on i+1 the region in described M sensitive zones,
Generate second control instruction corresponding with described i+1 region;
A2, based on described second control instruction, by controlling described driving means, drive described camera lens to adjust
To second angle corresponding with described i+1 region;
A3, in described second angle, obtained by described camera lens and need at described i+1 regional imaging
The image information of camera body, wherein, described first angle is different angles from described second angle.
In specific implementation process, the T2 moment described here is set as 10 points 26 seconds when 5, described second jiao
Degree is set as 45 degree, and certainly, described T2 moment and described second angle can also be set as other numerical value,
It should be noted that the implementation method of the technical scheme that A1, A2, A3 in this step record and step 201,
202, the implementation method of 203 technical schemes recorded duplicates, so, the most just it is not described in detail.
In described second angle, obtained by described camera lens and need being imaged at described i+1 regional imaging
After the image information of body, described method also comprises the steps:
Judge that in M sensitive zones, each sensitive zones is the most photosensitive by described camera lens and obtains correspondence
The image information of camera body;
In M sensitive zones, each sensitive zones is photosensitive by described camera lens and obtains being imaged of correspondence
During the image information of body, include described M sensitive zones correspondence image letter by the output of described imageing sensor
The image of breath.
In specific implementation process, when in described second angle, when i.e. 45 degree, being obtained by described camera lens and need
Will be in described i+1, i.e. the object of the 2nd regional imaging, after the image information of books, it is judged that institute
Stating M, in i.e. 8 sensitive zones, each sensitive zones is the most photosensitive by described camera lens and obtains correspondence
The image information of described books, and produce the one in two kinds of judged results of yes/no, specifically:
One, described judged result is no
When described judged result is no, in M sensitive zones, each sensitive zones is not by described
Camera lens is photosensitive and obtains the camera body of correspondence, during such as the image information of books, by described imageing sensor
Output includes the image of each sensitive zones correspondence image information in described M sensitive zones.
In specific implementation process, in the described T2 moment, when i.e. 5 10 points and 26 seconds, and described second angle,
When i.e. 45 degree, being obtained by described camera lens and need in described i+1, i.e. the 2nd regional imaging is described
After the image information of books, by described i-th, i+1, i.e. the 1st, 2 sensitive zones correspondence image information
Image be merged into an entirety, form a book image, and described complete book image passed through institute
State imageing sensor output.
Two, described judged result is yes
When described judged result is for being, in M sensitive zones, each sensitive zones passes through described camera lens
Photosensitive and when obtaining the image information of camera body of correspondence, include described by the output of described imageing sensor
The image of M sensitive zones correspondence image information.
In specific implementation process, in the described T2 moment, when i.e. 5 10 points and 26 seconds, and described second angle,
When i.e. 45 degree, being obtained by described camera lens and need in described i+1, i.e. the 2nd regional imaging is described
After the image information of books, described camera lens continues to rotate to the i-th+2, the i.e. the 3rd region, and in lower a period of time
The i.e. T3 moment at quarter, such as 10 points 27 seconds when 5, and next angle i.e. third angle, during such as 60 degree, pass through
Camera lens obtains to be needed at described the i-th+2, i.e. the object of the 3rd regional imaging, such as the image information of books.
In specific implementation process, it is also possible in T4, T5, T6, T7, T8 moment, fourth angle,
Five angles, hexagonal degree, heptangle degree, obtained by camera lens need i-th+3, i+4, i+5, i+6, M
The image information of the described books of individual regional imaging, is the most just not described in detail, wherein, in the present embodiment
The described T8 moment be also the kth moment in Fig. 5.
The image information of the books of imaging in described M sensitive zones is needed when being obtained by described camera lens
After, the image of described M sensitive zones correspondence image information is merged into an entirety, forms one completely
Book image, and described complete book image is exported by described imageing sensor.
One or more technical schemes in the embodiment of the present application, at least have the following technical effect that
By have employed liquid lens, Mems technology realizes the rotation of camera lens, and uses band large scale sense
Light CMOS, as the technological means of photosensitive unit, solves pinhole camera lens size present in prior art
Color and the resolution of the limited data making to gather mutually restrict, and the technology that the ability of collection data is the lowest is asked
Topic so that pinhole camera lens has reached high color also original sense when the mode swept according to row gathers view data
Light, and can need to adjust the technique effect of photosensitive size according to user.
Obviously, those skilled in the art can carry out various change and modification without deviating from this to the present invention
Bright spirit and scope.So, if the present invention these amendment and modification belong to the claims in the present invention and
Within the scope of its equivalent technologies, then the present invention is also intended to comprise these change and modification.
Claims (9)
1. an electronic equipment, it is characterised in that including:
Casing;
Camera lens, is arranged on the housing;
Imageing sensor, described imageing sensor is included in a line M sensitive zones of distribution, described figure
As sensor is arranged in described casing, being connected with described camera lens, wherein, M is the integer more than or equal to 2;
Driving means, is arranged in described casing, is connected with described camera lens;
Wherein, when in the T1 moment, when needing imaging in the ith zone in described M sensitive zones,
Based on first control instruction corresponding with described ith zone, control described driving means, described to drive
Camera lens is adjusted to first angle corresponding with described ith zone, and then obtains needs in institute by described camera lens
Stating the image information of the camera body of ith zone imaging, wherein, described i is for more than zero and less than or equal to institute
State the integer of M.
2. electronic equipment as claimed in claim 1, it is characterised in that described electronic equipment also includes sequential
Logic circuit, is connected with described imageing sensor and described driving means respectively, is used for generating described first control
System instruction.
3. electronic equipment as claimed in claim 2, it is characterised in that when in the T2 moment, needing in institute
When stating imaging on i+1 the region in M sensitive zones, described sequential logical circuit is additionally operable to generate one
Second control instruction corresponding with described i+1 region;
Described driving means is additionally operable to, and based on described second control instruction, drives described camera lens to be adjusted to and institute
State the second angle that i+1 region is corresponding, and then obtain needs in described i+1 district by described camera lens
The image information of the camera body of domain imaging, wherein, described first angle is different from described second angle
Angle.
4. the electronic equipment as described in any claim in claim 1-3, it is characterised in that described
In M sensitive zones, each sensitive zones is photosensitive by described camera lens and obtains the figure of camera body of correspondence
During as information, described imageing sensor is additionally operable to export and includes described M sensitive zones correspondence image information
Image.
5. electronic equipment as claimed in claim 4, it is characterised in that described camera lens is pinhole camera lens.
6. the method obtaining image information, applies in an electronic equipment, and described electronic equipment includes:
Camera lens;Imageing sensor, described imageing sensor be included in a line distribution M sensitive zones, wherein,
M is the integer more than or equal to 2;Driving means, is connected with described camera lens, it is characterised in that described method
Including:
When in the T1 moment, when needing imaging in the ith zone in described M sensitive zones, generating one
First control instruction corresponding with described ith zone;
Based on described first control instruction, by controlling described driving means, drive described camera lens be adjusted to
The first angle that described ith zone is corresponding;
In described first angle, obtained by described camera lens and need the camera body in described ith zone imaging
Image information, wherein, described i is more than zero and less than or equal to the integer of described M.
7. method as claimed in claim 6, it is characterised in that in described first angle, by described mirror
Head obtains to be needed after the image information of the camera body of described ith zone imaging, and described method is also wrapped
Include:
When in the T2 moment, when needing imaging on i+1 the region in described M sensitive zones, generating
One second control instruction corresponding with described i+1 region;
Based on described second control instruction, by controlling described driving means, drive described camera lens be adjusted to
The second angle that described i+1 region is corresponding;
In described second angle, obtained by described camera lens and need being imaged at described i+1 regional imaging
The image information of body, wherein, described first angle is different angles from described second angle.
8. method as claimed in claim 7, it is characterised in that in described second angle, by described mirror
Head obtains to be needed after the image information of the camera body of described i+1 regional imaging, and described method is also wrapped
Include:
Judge that in M sensitive zones, each sensitive zones is the most photosensitive by described camera lens and obtains correspondence
The image information of camera body;
In M sensitive zones, each sensitive zones is photosensitive by described camera lens and obtains being imaged of correspondence
During the image information of body, include described M sensitive zones correspondence image letter by the output of described imageing sensor
The image of breath.
9. method as claimed in claim 8, it is characterised in that described camera lens is pinhole camera lens.
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CN1354441A (en) * | 2000-11-20 | 2002-06-19 | 王建民 | High-resolution information document quick digitizer |
CN1574889A (en) * | 2003-06-20 | 2005-02-02 | 佳能株式会社 | Image signal processing apparatus |
JP2006308496A (en) * | 2005-04-28 | 2006-11-09 | Ricoh Co Ltd | Ranging device and imaging apparatus |
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CN1354441A (en) * | 2000-11-20 | 2002-06-19 | 王建民 | High-resolution information document quick digitizer |
CN1574889A (en) * | 2003-06-20 | 2005-02-02 | 佳能株式会社 | Image signal processing apparatus |
JP2006308496A (en) * | 2005-04-28 | 2006-11-09 | Ricoh Co Ltd | Ranging device and imaging apparatus |
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