CN105491277B - Image processing method and electronic equipment - Google Patents
Image processing method and electronic equipment Download PDFInfo
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- CN105491277B CN105491277B CN201410469899.1A CN201410469899A CN105491277B CN 105491277 B CN105491277 B CN 105491277B CN 201410469899 A CN201410469899 A CN 201410469899A CN 105491277 B CN105491277 B CN 105491277B
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Abstract
A kind of image processing method of present invention offer and electronic equipment.The method be applied to include at least two image capture modules electronic equipment in, the method includes:The focus operation for detecting described image acquisition module, determines focusing area;It determines in focus point corresponding with the focusing area and described image acquisition module at a distance from predetermined plane;When the distance is more than first threshold, the first depth map is obtained with first resolution;And when the distance is no more than first threshold, the second depth map is obtained with second resolution, wherein the second resolution is less than the first resolution.
Description
Technical field
The present invention relates to the fields of electronic equipment, more particularly, to image processing method and electronic equipment.
Background technology
Currently, 3D display and stereoscopic camera have received more and more attention.Depth map is being generated using stereoscopic camera
When, usual depth algorithm needs to use bigger buffer, and the size of buffer and the resolution ratio of depth map and depth
The distance of object distance has direct contact in degree figure.
On the other hand, when being realized using hardware circuit, big buffer means more costs.
For this reason, it may be desirable to provide a kind of image processing method and electronic equipment, the buffering that depth calculation uses can be reduced
Device, while ensureing the using effect of depth information.
Invention content
The embodiment provides a kind of image processing methods, are applied to include at least two image capture modules
In electronic equipment, the method includes:
The focus operation for detecting described image acquisition module, determines focusing area;
It determines in focus point corresponding with the focusing area and described image acquisition module at a distance from predetermined plane;
When the distance is more than first threshold, the first depth map is obtained with first resolution;And
When the distance is no more than first threshold, the second depth map is obtained with second resolution, wherein described second point
Resolution is less than the first resolution.
Preferably, determine predetermined plane in corresponding with focusing area focus point and described image acquisition module away from
From further comprising:
Detect the value of the driving current of the voice coil motor of the electronic equipment;
The position of the lens unit at least two image capture module is calculated according to the value of the driving current;With
And
Focus point is calculated at a distance from the predetermined plane according to the position of the lens unit.
Preferably, focus point corresponding with the focusing area and predetermined plane in described image acquisition module are determined
Distance further comprises:
Obtain the sensing value of the lens sensor of the electronic equipment;
The position of the lens unit at least two image capture module is calculated according to the sensing value;And
Focus point is calculated at a distance from the predetermined plane according to the position of the lens unit.
Preferably, the first threshold is determined by the predetermined span and resolution ratio used in depth map computational algorithm.
According to another embodiment of the present invention, a kind of electronic equipment is provided, including:
At least two image capture modules, the image for acquiring subject;
Focusing area determination unit, the focus operation for detecting described image acquisition module, determines focusing area;
Distance determining unit, it is pre- in focus point corresponding with the focusing area and described image acquisition module for determining
Allocate the distance in face;
Control unit, for when the distance is more than first threshold, the first depth map to be obtained with first resolution;And
When the distance is no more than first threshold, the second depth map is obtained with second resolution, wherein the second resolution is less than
The first resolution.
Preferably, the distance determining unit is further used for:
Detect the value of the driving current of the voice coil motor of the electronic equipment;
The position of the lens unit at least two image capture module is calculated according to the value of the driving current;With
And
Focus point is calculated at a distance from the predetermined plane according to the position of the lens unit.
Preferably, the distance determining unit further comprises:
Obtain the sensing value of the lens sensor of the electronic equipment;
The position of the lens unit at least two image capture module is calculated according to the sensing value;And
Focus point is calculated at a distance from the predetermined plane according to the position of the lens unit.
Preferably, the first threshold is determined by the predetermined span and resolution ratio used in depth map computational algorithm.
Therefore, image processing method and electronic equipment according to the ... of the embodiment of the present invention can reduce depth calculation use
Buffer, while ensureing the using effect of depth information.
Description of the drawings
Fig. 1 a-1c are the definition graphs for the principle that description generates depth map information;
Fig. 2 is the schematic diagram for the principle for illustrating image processing method according to the ... of the embodiment of the present invention;
Fig. 3 is the flow chart for illustrating image processing method according to the ... of the embodiment of the present invention;And
Fig. 4 is the functional configuration block diagram for illustrating electronic equipment according to the ... of the embodiment of the present invention.
Specific implementation mode
Before describing image processing method and electronic equipment according to the ... of the embodiment of the present invention, acquisition is easily described first
The principle of depth information.
Currently, generating the technology that depth map information is current prevalence in the industry using depth camera (stereo camera).Example
Such as, most common mode is using two video cameras separated by a distance while to obtain scene image and generate depth map.This
The system of sample is also referred to as binocular camera system.Certainly, in addition to binocular camera system, camera array system, packet can also be used
The camera array for including multiple camera compositions, for obtaining scene image.
Below with reference to Fig. 1 a-1c, the principle for obtaining depth information is easily described by taking binocular camera system as an example.
Most basic binocular solid geometrical relationship is as shown in Figure 1a, it is made of two identical video cameras, and two
A plane of delineation is located in a plane, and the reference axis of two video cameras is mutually parallel, and x-axis overlaps, in the side x between video camera
Upward spacing is parallax range b.In this model, in scene the same characteristic point on two camera image planes
Image space is different.Here, subpoint of the same point in scene in two different images is known as conjugate pair, it is therein
As soon as subpoint is the correspondence of another subpoint, conjugate pair is asked to be to solve for correspondence.Being total to when two images are overlapped
Yoke is known as parallax to the difference (the distance between conjugate pair point) of the position of point, by two camera centers and passes through scene spy
The intersection of the plane of sign point referred to as outer pole (epipolar) plane, outer polar plane and the plane of delineation is known as EP point.
In Figure 1b, subpoints of the scene point P in the left and right plane of delineation is divided into plAnd pr.Without loss of generality, it is assumed that sit
Mark system origin is overlapped with left lens center.Compare similar triangles PMClAnd plLCl, following formula can be obtained:
Similarly, from similar triangles PNCrAnd plRCr, following formula can be obtained:
Merge above two formulas, can obtain:
Wherein F is focal length, and B is parallax range.
Therefore, the depth recovery of various scene points can be realized by calculating parallax.
For the image for the Same Scene that two width obtain from different perspectives, traditional feature point searching method is first
A characteristic point is selected on piece image, then searches for corresponding characteristic point on the second width image.That is, passing through
Feature Points Matching calculates, and position of the selected characteristic point in the first width figure in the second width is found, to carry out the matching of image.
As illustrated in figure 1 c, according to imaging geometry principle, the characteristic point one on piece image is positioned on another width image
On corresponding EP point.That is, each characteristic point in piece image is all located in same a line in the second width image.
On the other hand, due to the discrete feature of digital picture, this feature o'clock is in piece image and the second width image
Alternate position spike is measured as unit of pixel.Obviously, characteristic point high-resolution (for example, using VGA resolution (640 ×
480) pixel difference when pixel difference and low resolution (for example, using QVGA resolution ratio (240 × 320)) when) is different, by
This causes the calculation amount of feature point search also different.Computationally intensive when pixel difference is big, the buffer needed is big.Pixel difference hour,
Calculation amount is small, and the buffer needed is small.
On the other hand, the object also pixel difference of effect characteristics point in two images with a distance from video camera.When object from
When video camera is remote, pixel difference variation of the object in two images is smaller, can support high-resolution with certain buffer at this time
The calculating of the depth map of rate (such as VGA).On the other hand, when object is close from video camera, pixel difference of the object in two images
It changes greatly, at this point, identical buffer cannot support the calculating of high-resolution depth graph.But it if will depth map at this time
Resolution ratio be set as low resolution (such as QVGA), then the pixel difference of object in both images will become smaller, at this point, identical slow
It rushes device and can support current calculation amount.
On the other hand, if it is known that the distance between target and video camera are in a certain section, then search range can limit
One in a line on the second image is made compared in minizone, as shown in 1c.It is thus possible to improve characteristic point search speed is simultaneously
And reduce calculation amount.
It can be seen that the calculation amount of depth map, and therefore caused by buffer size, with the resolution ratio of depth map with
And object has direct relation at a distance from video camera.
In the following, image processing method according to the ... of the embodiment of the present invention will be described with reference to figure 2.
Image processing method according to the ... of the embodiment of the present invention is applied to include that the electronics of at least two image capture modules is set
In standby.Such electronic equipment is, for example, the stereoscopic camera for including two or more cameras.
The method includes:
Step S101:The focus operation for detecting described image acquisition module, determines focusing area;
Step S102:Determine focus point corresponding with the focusing area and predetermined plane in described image acquisition module
Distance;
Step S103:When the distance is more than first threshold, the first depth map is obtained with first resolution;And
Step S104:When the distance is no more than first threshold, the second depth map, wherein institute are obtained with second resolution
It states second resolution and is less than the first resolution.
Specifically, in step S101, when stereoscopic camera starts Image Acquisition, preview graph is shown on the display unit
Picture.At this point, for example by auto-focusing or manual focus, the focusing area in preview image is determined.For example, by single in display
Small box shown in member etc. determines focusing area.After determining focusing area, the voice coil motor of electronic equipment will drive image
Collecting unit includes that lens unit is moved to corresponding position.
Then, in step s 102, determine in focus point corresponding with the focusing area and described image acquisition module
The distance of predetermined plane.
In one embodiment, determine that focus point corresponding with the focusing area makes a reservation for described image acquisition module
The distance of plane further comprises:
Detect the value of the driving current of the voice coil motor of electronic equipment.For example, voice coil motor drives current through to posting
Respective value is written in storage to determine.For example, when 1 is written into register, expression driving current is 1ma, when to deposit
When 2 being written in device, indicate that driving current is 2ma etc..
Then, the position of the lens unit at least two image capture module is calculated according to the value of the driving current
It sets.That is, when driving current is 1ma, it may be determined that lens unit is by driving 1mm.It, can when driving current is 2ma
To determine lens unit by driving 2mm etc..
Then, focus point is calculated at a distance from the predetermined plane according to the position of the lens unit.That is, root
According to the driven position of lens unit, it may be determined that focus point at this time, may thereby determine that focus point and predetermined plane away from
From.
In another embodiment, electronic equipment can also provide lens sensor, the position for measuring lens unit.
Accordingly, it is determined that with the focusing area in corresponding focus point and described image acquisition module at a distance from predetermined plane
Further comprise:
Obtain the sensing value of the lens sensor of the electronic equipment;
The position of the lens unit at least two image capture module is calculated according to the sensing value;And
Focus point is calculated at a distance from the predetermined plane according to the position of the lens unit.
That is, because lens sensor can directly determine the position of lens unit, focus so as to determine
The position of point, also just correspondingly determines focus point at a distance from predetermined plane.
Then, in step s 103, when the distance is more than first threshold, the first depth is obtained with first resolution
Figure;And
Step S104:When the distance is no more than first threshold, the second depth map, wherein institute are obtained with second resolution
It states second resolution and is less than the first resolution.
Specifically, as shown in figure 3, when focus point is more than first threshold (such as larger than 35cm, figure at a distance from predetermined screen
A sections in 3) when, i.e., object is remote from video camera at this time, and pixel difference variation of the object in two images is smaller, uses at this time certain
Buffer can support high-resolution (such as VGA) depth map calculating.
On the other hand, when the distance is no more than first threshold (the B sections in such as less than 35cm, Fig. 3), object is in two width
Pixel difference variation on image is smaller, at this time in order to use identical buffer, can only support the depth of low resolution (such as QVGA)
Spend the calculating of figure.It should be noted that at this point, because object distance video camera distance is closer, therefore object is shared in the picture
Range is larger (at this point, belonging to the microspur stage).Therefore, although reducing the resolution ratio of depth map, this has no effect on depth letter
The practical effect of breath.
At this point, as shown in formula 3, depth z is by xl′-xr' influence, that is to say, that characteristic point is in the first image and the second figure
As the influence of the range difference (that is, pixel difference) of upper subpoint.Span in the pixel difference i.e. depth map computational algorithm.
That is, the first threshold is determined by the predetermined span and resolution ratio used in depth map computational algorithm.
Therefore, image processing method according to a first embodiment of the present invention, when focus point is more than at a distance from predetermined screen
When first threshold, the calculating of depth map is carried out using high-resolution, when focus point is no more than the first threshold at a distance from predetermined screen
When value, the calculating of depth map is carried out using low resolution, to efficiently reduce the calculation amount of depth calculation, therefore is reduced
The buffer used, while can ensure the using effect of depth information.
In the following, electronic equipment according to another embodiment of the present invention will be described with reference to figure 4.
The electronic equipment 400 includes:
At least two image capture modules 401, the image for acquiring subject;
Focusing area determination unit 402, the focus operation for detecting described image acquisition module 401 determine focusing area
Domain;
Distance determining unit 403, for determining focus point corresponding with the focusing area and described image acquisition module
The distance of middle predetermined plane;
Control unit 404, for when the distance is more than first threshold, the first depth map to be obtained with first resolution;
And when the distance is no more than first threshold, the second depth map is obtained with second resolution, wherein the second resolution
Less than the first resolution.
The image capture module 401 is such as including lens unit, voice coil motor, lens position sensor.Electronic equipment
400 such as further including register, the value of the driving current for voice coil motor to be written.
Preferably, the distance determining unit 403 is further used for:
Detect the value of the driving current of the voice coil motor of the electronic equipment;
The position of the lens unit at least two image capture module is calculated according to the value of the driving current;With
And
Focus point is calculated at a distance from the predetermined plane according to the position of the lens unit.
Preferably, the distance determining unit 403 further comprises:
Obtain the sensing value of the lens sensor of the electronic equipment;
The position of the lens unit at least two image capture module is calculated according to the sensing value;And
Focus point is calculated at a distance from the predetermined plane according to the position of the lens unit.
Preferably, the first threshold is determined by the predetermined span and resolution ratio used in depth map computational algorithm.
It should be noted that each functional block of electronic equipment 400 is configured to execute at image according to first embodiment
Each step of reason method is omitted it and is retouched in detail herein to execute image processing method according to a first embodiment of the present invention
It states.
Therefore, electronic equipment according to the ... of the embodiment of the present invention, when focus point is more than first threshold at a distance from predetermined screen
When, the calculating of depth map is carried out using high-resolution, when focus point is no more than first threshold at a distance from predetermined screen, is made
The calculating that depth map is carried out with low resolution uses to efficiently reduce the calculation amount of depth calculation, therefore reduce
Buffer, while can ensure the using effect of depth information.
It should be noted that its functional unit is illustrate only when illustrating electronic equipment according to various embodiments, and
The connection relation of each functional unit is not specifically described, it will be appreciated by persons skilled in the art that each functional unit can
Suitably to be connected by bus, internal connection line etc., such connection is well known to those skilled in the art.
It should be noted that in the present specification, the terms "include", "comprise" or its any other variant are intended to
Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those
Element, but also include other elements that are not explicitly listed, or further include for this process, method, article or equipment
Intrinsic element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that
There is also other identical elements in process, method, article or equipment including the element.
Finally, it is to be noted that, it is above-mentioned it is a series of processing include not only with sequence described here in temporal sequence
The processing of execution, and include the processing executed parallel or respectively rather than in chronological order.
Through the above description of the embodiments, those skilled in the art can be understood that the present invention can be by
Software adds the mode of required hardware platform to realize, naturally it is also possible to all be implemented by hardware.Based on this understanding,
Technical scheme of the present invention can be expressed in the form of software products in whole or in part to what background technology contributed,
The computer software product can be stored in a storage medium, such as ROM/RAM, magnetic disc, CD, including some instructions are making
It obtains a computer equipment (can be personal computer, server or the network equipment etc.) and executes each embodiment of the present invention
Or the method described in certain parts of embodiment.
The present invention is described in detail above, specific case used herein is to the principle of the present invention and embodiment party
Formula is expounded, and the explanation of above example is only intended to facilitate the understanding of the method and its core concept of the invention;Meanwhile it is right
In those of ordinary skill in the art, according to the thought of the present invention, change is had in specific embodiments and applications
Place, in conclusion the content of the present specification should not be construed as limiting the invention.
Claims (8)
1. a kind of image processing method, be applied to include at least two image capture modules electronic equipment in, the method packet
It includes:
The focus operation for detecting described image acquisition module, determines focusing area;
It determines in focus point corresponding with the focusing area and described image acquisition module at a distance from predetermined plane;
When the distance is more than first threshold, the first depth map is obtained with first resolution;And
When the distance is no more than first threshold, the second depth map is obtained with second resolution, wherein the second resolution
Less than the first resolution.
2. image processing method as described in claim 1, wherein determine corresponding with focusing area focus point with it is described
The distance of predetermined plane further comprises in image capture module:
Detect the value of the driving current of the voice coil motor of the electronic equipment;
The position of the lens unit at least two image capture module is calculated according to the value of the driving current;And
Focus point is calculated at a distance from the predetermined plane according to the position of the lens unit.
3. image processing method as described in claim 1, wherein determine corresponding with focusing area focus point with it is described
The distance of predetermined plane further comprises in image capture module:
Obtain the sensing value of the lens sensor of the electronic equipment;
The position of the lens unit at least two image capture module is calculated according to the sensing value;And
Focus point is calculated at a distance from the predetermined plane according to the position of the lens unit.
4. image processing method as described in claim 1, wherein
The first threshold is determined by the predetermined span and resolution ratio used in depth map computational algorithm.
5. a kind of electronic equipment, including:
At least two image capture modules, the image for acquiring subject;
Focusing area determination unit, the focus operation for detecting described image acquisition module, determines focusing area;
Distance determining unit, for determining that focus point corresponding with the focusing area allocates in advance with described image acquisition module
The distance in face;
Control unit, for when the distance is more than first threshold, the first depth map to be obtained with first resolution;And work as institute
When stating distance no more than first threshold, the second depth map is obtained with second resolution, wherein the second resolution is less than described
First resolution.
6. electronic equipment as claimed in claim 5, wherein the distance determining unit is further used for:
Detect the value of the driving current of the voice coil motor of the electronic equipment;
The position of the lens unit at least two image capture module is calculated according to the value of the driving current;And
Focus point is calculated at a distance from the predetermined plane according to the position of the lens unit.
7. electronic equipment as claimed in claim 5, wherein the distance determining unit further comprises:
Obtain the sensing value of the lens sensor of the electronic equipment;
The position of the lens unit at least two image capture module is calculated according to the sensing value;And
Focus point is calculated at a distance from the predetermined plane according to the position of the lens unit.
8. electronic equipment as claimed in claim 5, wherein
The first threshold is determined by the predetermined span and resolution ratio used in depth map computational algorithm.
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