CN105635557A - Image processing method and system based on two rear cameras, and terminal - Google Patents

Abstract

The invention provides an image processing method based on two rear cameras, an image processing system based on the two rear cameras and a terminal. The image processing method based on the two rear cameras comprises the following steps of obtaining a first image with depth of field information through the two rear cameras according to a received first shooting instruction; obtaining a second image through a front camera of the terminal according to a received second shooting instruction; and combining the second image into the first image with the depth of field information to generate a target image. Through the technical scheme of the invention, a body foreground image obtained by the front camera can be well fused in the images with the depth of field information, which are obtained by the two rear cameras, so that the generated picture-in-picture images look more natural and coordinated from the overall effect, and thus the user experience is promoted.

Description

Image processing method and system, terminal based on double; two rear photographic head

Technical field

The present invention relates to field of terminal technology, in particular to a kind of image processing method based on double; two rear photographic head, a kind of image processing system based on double; two rear photographic head and a kind of terminal.

Background technology

At present, along with the fast development of terminal, double; two camera techniques are successfully incorporated into field of terminal, and have been in the period of fast development. In terminal Photographing Mode, by dual camera, scenery is carried out shooting and obtain image, that is: the image that the image obtained by front photographic head and rear photographic head obtain merges thus obtaining pip image, so by two images merging can be obtained comparison image ingenious, shooting while can also realizing beautiful scenery and personage, this image processing function of terminal is liking by users deeply.

But, due in the related, it is that the image obtained by front photographic head directly overlays on the image that rear photographic head obtains, therefore, two images do not merge well, make the pip image that merging goes out very inharmonious on the whole, simultaneously also very unnatural, among the scene image that the character image such as before taken the photograph is taken the photograph after failing to be dissolved into.

Therefore, take the photograph in background image after how the main body foreground image front taken the photograph being dissolved into, so that the pip image ultimately generated more natural and coordination on whole structure, and then promote the technical problem that Consumer's Experience becomes urgently to be resolved hurrily.

Summary of the invention

The present invention is based on the problems referred to above, propose a kind of new technical scheme, the image with depth of view information is obtained by double; two rear photographic head, and the main body foreground image obtained by front photographic head is dissolved in the image with depth of view information, so that the pip image ultimately generated more natural and coordination on whole structure, and then improve Consumer's Experience.

In view of this, an aspect of of the present present invention proposes a kind of image processing method based on double; two rear photographic head, and for terminal, described method includes: according to the first shooting instruction received, and obtains first image with depth of view information by described double; two rear photographic head; According to the second shooting instruction received, obtain the second image by the front photographic head of described terminal; Have in the first image of depth of view information described in described second image is incorporated into, to generate target image.

In this technical scheme, first image (taking the photograph background image afterwards) with depth of view information is obtained by the double, two rear photographic head shooting of terminal, and the shooting of front photographic head obtains the second image (main body foreground image), then the second image is incorporated in first image with depth of view information, to obtain picture-in-picture target image, so, in the target image generated, second image can be dissolved in the first image well, i.e. AE (the AutomaticExposure of the second image, automatic exposure) and AWB (AutomaticWhiteBalance, AWB) and AE and the AWB of the first image can mate very well, so that the picture-in-picture target image generated seems more natural on whole structure and coordinates, and then improve Consumer's Experience.

In technique scheme, it is preferable that first image described in acquisition with depth of view information specifically also includes: obtain the range information of scenery in described first image; According to described range information, the scenery within the scope of different distance is divided to different figure layers, to obtain multiple figure layer.

In this technical scheme, the range information of the scenery in the first image is obtained by the existing ranging scheme of dual camera, and according to the range information of the scenery in this image, the scenery within the scope of different distance is divided to different multiple figure layers, so, the first image obtained by double, two rear photographic head can be regarded as and be combined by multiple map overlays, thus having established favourable basis for the second image to be merged more matchingly fusion with the first image, the second image can be made can be dissolved into well in the first image, the picture-in-picture target image making generation seems more natural on whole structure and coordinates.

In technique scheme, it is preferable that described second image is incorporated in described first image and specifically includes: according to the selection instruction received, choose appointment figure layer; Being placed on described appointment figure layer by described second image, and according to the edit instruction received, edit described second image, wherein, described appointment figure layer is the arbitrary figure layer in the plurality of figure layer.

In technique scheme, it is preferable that by described second image after editor with the plurality of figure lamination also, to generate described target image.

In this technical scheme, in the process of synthesis target image, selected appointment figure layer in there are multiple figure layers of the first image of depth of view information, this appointment figure layer can be the figure layer that user is the most satisfied, then the second image is placed on appointment figure layer, so, on the figure layer being placed in multiple figure layers of the first image to mate the second image most with this second image, and the second image can be carried out editing and processing, final synthesis picture-in-picture target image, certainly, can according to the whole structure of the target image after synthesis, adjust most suitable appointment figure layer, the second image is made to better blend in the first image, AE and the AWB namely making the second image after editor is dissolved in AE and the AWB of the first image well, so that target image is more natural on the whole, target image can also be made more creative, and then improve Consumer's Experience, additionally, in the process of synthesis target image, add and the exchanging of user, terminal is used to carry out processing the enjoyment of image thus adding user.

In technique scheme, it is preferable that the mode editing described second image includes one below or its combination: amplifies, reduce or rotates.

In this technical scheme, the mode editing the second image includes but not limited to one below or its combination: amplifies, reduce or rotates, such as can also is that cutting, it is, of course, also possible to the second image is carried out self-defined by the actual demand according to user, for instance, change brightness and contrast etc., AE and the AWB making the second image after editor is dissolved in AE and the AWB of the first image well, so that target image is more natural on the whole, and then improves Consumer's Experience.

Another aspect of the present invention proposes a kind of image processing system based on double; two rear photographic head, for terminal, described system includes: absorb image module afterwards, for according to the first shooting instruction received, obtaining first image with depth of view information by described double; two rear photographic head; Front picked-up image module, for according to the second shooting instruction received, obtaining the second image by the front photographic head of described terminal; Image generation module, has in the first image of depth of view information, to generate target image described in being incorporated into by described second image.

In this technical scheme, first image (taking the photograph background image afterwards) with depth of view information is obtained by the double, two rear photographic head shooting of terminal, and the shooting of front photographic head obtains the second image (main body foreground image), then the second image is incorporated in first image with depth of view information, to obtain picture-in-picture target image, so, in the target image generated, second image can be dissolved in the first image well, i.e. AE (the AutomaticExposure of the second image, automatic exposure) and AWB (AutomaticWhiteBalance, AWB) and AE and the AWB of the first image can mate very well, so that the picture-in-picture target image generated seems more natural on whole structure and coordinates, and then improve Consumer's Experience.

In technique scheme, it is preferable that after described, picked-up image module specifically includes: acquisition module, for obtaining the range information of the scenery in described first image; Divide module, for the scenery within the scope of different distance being divided to different figure layers according to described range information, to obtain multiple figure layer.

In this technical scheme, the range information of the scenery in the first image is obtained by the existing ranging scheme of dual camera, and according to the range information of the scenery in this image, the scenery within the scope of different distance is divided to different multiple figure layers, so, the first image obtained by double, two rear photographic head can be regarded as and be combined by multiple map overlays, thus having established favourable basis for the second image to be merged more matchingly fusion with the first image, the second image can be made can be dissolved into well in the first image, the picture-in-picture target image making generation seems more natural on whole structure and coordinates.

In technique scheme, it is preferable that described image generation module specifically includes: select module, for according to the selection instruction received, choosing appointment figure layer; Module is set, for described second image is placed in described appointment figure layer; Editor module, for according to the edit instruction received, editing described second image, wherein, described appointment figure layer is the arbitrary figure layer in the plurality of figure layer.

In technique scheme, it is preferable that described image generation module also includes: merge module, for by described second image after editor with the plurality of figure lamination also, to generate described target image.

In this technical scheme, in the process of synthesis target image, selected appointment figure layer in there are multiple figure layers of the first image of depth of view information, this appointment figure layer can be the figure layer that user is the most satisfied, then the second image is placed on appointment figure layer, so, on the figure layer being placed in multiple figure layers of the first image to mate the second image most with this second image, and the second image can be carried out editing and processing, final synthesis picture-in-picture target image, certainly, can according to the whole structure of the target image after synthesis, adjust most suitable appointment figure layer, the second image is made to better blend in the first image, AE and the AWB namely making the second image after editor is dissolved in AE and the AWB of the first image well, so that target image is more natural on the whole, target image can also be made more creative, and then improve Consumer's Experience, additionally, in the process of synthesis target image, add and the exchanging of user, terminal is used to carry out processing the enjoyment of image thus adding user.

In technique scheme, it is preferable that the mode editing described second image includes one below or its combination: amplifies, reduce or rotates.

In this technical scheme, the mode editing the second image includes but not limited to one below or its combination: amplifies, reduce or rotates, such as can also is that cutting, it is, of course, also possible to the second image is carried out self-defined by the actual demand according to user, for instance, change brightness and contrast etc., AE and the AWB making the second image after editor is dissolved in AE and the AWB of the first image well, so that target image is more natural on the whole, and then improves Consumer's Experience.

Another aspect of the present invention proposes a kind of terminal, including the image processing system based on double; two rear photographic head described in as above any one technical scheme.

In this technical scheme, first image (taking the photograph background image afterwards) with depth of view information is obtained by the double, two rear photographic head shooting of terminal, and the shooting of front photographic head obtains the second image (main body foreground image), then the second image is incorporated in first image with depth of view information, to obtain picture-in-picture target image, so, in the target image generated, second image can be dissolved in the first image well, i.e. AE (the AutomaticExposure of the second image, automatic exposure) and AWB (AutomaticWhiteBalance, AWB) and AE and the AWB of the first image can mate very well, so that the picture-in-picture target image generated seems more natural on whole structure and coordinates, and then improve Consumer's Experience.

Pass through technical scheme, the main body foreground image that front photographic head obtains can be dissolved into well in the image with depth of view information that double; two rear photographic head obtains, so that the pip image generated seems more natural on whole structure and coordinates, and then improve Consumer's Experience.

Accompanying drawing explanation

Fig. 1 illustrates the schematic flow sheet of the image processing method based on double; two rear photographic head according to an embodiment of the invention;

Fig. 2 illustrates the structural representation of the image processing system based on double; two rear photographic head according to an embodiment of the invention;

Fig. 3 illustrates the structural representation of terminal according to an embodiment of the invention;

Fig. 4 illustrates the principle schematic of the image processing system based on double; two rear photographic head according to an embodiment of the invention.

Detailed description of the invention

In order to the above-mentioned purpose of the present invention, feature and advantage can be more clearly understood that, below in conjunction with the drawings and specific embodiments, the present invention is further described in detail. It should be noted that when not conflicting, embodiments herein and the feature in embodiment can be mutually combined.

Elaborate a lot of detail in the following description so that fully understanding the present invention; but; the present invention can also adopt other to be different from other modes described here to implement, and therefore, protection scope of the present invention is by the restriction of following public specific embodiment.

Fig. 1 illustrates the schematic flow sheet of the image processing method based on double; two rear photographic head according to an embodiment of the invention.

As it is shown in figure 1, the image processing method based on double; two rear photographic head according to an embodiment of the invention, including: step 102, according to the first shooting instruction received, obtain first image with depth of view information by described double; two rear photographic head; Step 104, according to the second shooting instruction received, obtains the second image by the front photographic head of described terminal; Step 106, has in the first image of depth of view information described in being incorporated into by described second image, to generate target image.

In this technical scheme, first image (taking the photograph background image afterwards) with depth of view information is obtained by the double, two rear photographic head shooting of terminal, and the shooting of front photographic head obtains the second image (main body foreground image), then the second image is incorporated in first image with depth of view information, to obtain picture-in-picture target image, so, in the target image generated, second image can be dissolved in the first image well, i.e. AE (the AutomaticExposure of the second image, automatic exposure) and AWB (AutomaticWhiteBalance, AWB) and AE and the AWB of the first image can mate very well, so that the picture-in-picture target image generated seems more natural on whole structure and coordinates, and then improve Consumer's Experience.

In technique scheme, it is preferable that first image described in acquisition with depth of view information specifically also includes: obtain the range information of scenery in described first image; According to described range information, the scenery within the scope of different distance is divided to different figure layers, to obtain multiple figure layer.

In this technical scheme, the range information of the scenery in the first image is obtained by the existing ranging scheme of dual camera, and according to the range information of the scenery in this image, the scenery within the scope of different distance is divided to different multiple figure layers, so, the first image obtained by double, two rear photographic head can be regarded as and be combined by multiple map overlays, thus having established favourable basis for the second image to be merged more matchingly fusion with the first image, the second image can be made can be dissolved into well in the first image, the picture-in-picture target image making generation seems more natural on whole structure and coordinates.

In technique scheme, it is preferable that described second image is incorporated in described first image and specifically includes: according to the selection instruction received, choose appointment figure layer; Being placed on described appointment figure layer by described second image, and according to the edit instruction received, edit described second image, wherein, described appointment figure layer is the arbitrary figure layer in the plurality of figure layer.

In technique scheme, it is preferable that by described second image after editor with the plurality of figure lamination also, to generate described target image.

In this technical scheme, in the process of synthesis target image, selected appointment figure layer in there are multiple figure layers of the first image of depth of view information, this appointment figure layer can be the figure layer that user is the most satisfied, then the second image is placed on appointment figure layer, so, on the figure layer being placed in multiple figure layers of the first image to mate the second image most with this second image, and the second image can be carried out editing and processing, final synthesis picture-in-picture target image, certainly, can according to the whole structure of the target image after synthesis, adjust most suitable appointment figure layer, the second image is made to better blend in the first image, AE and the AWB namely making the second image after editor is dissolved in AE and the AWB of the first image well, so that target image is more natural on the whole, target image can also be made more creative, and then improve Consumer's Experience, additionally, in the process of synthesis target image, add and the exchanging of user, terminal is used to carry out processing the enjoyment of image thus adding user.

In technique scheme, it is preferable that the mode editing described second image includes one below or its combination: amplifies, reduce or rotates.

In this technical scheme, the mode editing the second image includes but not limited to one below or its combination: amplifies, reduce or rotates, such as can also is that cutting, it is, of course, also possible to the second image is carried out self-defined by the actual demand according to user, for instance, change brightness and contrast etc., AE and the AWB making the second image after editor is dissolved in AE and the AWB of the first image well, so that target image is more natural on the whole, and then improves Consumer's Experience.

Fig. 2 illustrates the structural representation of the image processing system based on double; two rear photographic head according to an embodiment of the invention.

As shown in Figure 2, image processing system 200 based on double; two rear photographic head according to an embodiment of the invention, including: rear picked-up image module 202, front picked-up image module 204 and image generation module 206, wherein, rear picked-up image module 202, for according to the first shooting instruction received, obtaining first image with depth of view information by described double; two rear photographic head; Front picked-up image module 204, for according to the second shooting instruction received, obtaining the second image by the front photographic head of described terminal; Image generation module 206, has in the first image of depth of view information, to generate target image described in being incorporated into by described second image.

In this technical scheme, first image (taking the photograph background image afterwards) with depth of view information is obtained by the double, two rear photographic head shooting of terminal, and the shooting of front photographic head obtains the second image (main body foreground image), then the second image is incorporated in first image with depth of view information, to obtain picture-in-picture target image, so, in the target image generated, second image can be dissolved in the first image well, i.e. AE (the AutomaticExposure of the second image, automatic exposure) and AWB (AutomaticWhiteBalance, AWB) and AE and the AWB of the first image can mate very well, so that the picture-in-picture target image generated seems more natural on whole structure and coordinates, and then improve Consumer's Experience.

In technique scheme, it is preferable that after described, picked-up image module 202 specifically includes: acquisition module 2022, for obtaining the range information of the scenery in described first image; Divide module 2024, for the scenery within the scope of different distance being divided to different figure layers according to described range information, to obtain multiple figure layer.

In this technical scheme, the range information of the scenery in the first image is obtained by the existing ranging scheme of dual camera, and according to the range information of the scenery in this image, the scenery within the scope of different distance is divided to different multiple figure layers, so, the first image obtained by double, two rear photographic head can be regarded as and be combined by multiple map overlays, thus having established favourable basis for the second image to be merged more matchingly fusion with the first image, the second image can be made can be dissolved into well in the first image, the picture-in-picture target image making generation seems more natural on whole structure and coordinates.

In technique scheme, it is preferable that described image generation module 206 specifically includes: select module 2062, for according to the selection instruction received, choosing appointment figure layer; Module 2064 is set, for described second image is placed in described appointment figure layer; Editor module 2066, for according to the edit instruction received, editing described second image, wherein, described appointment figure layer is the arbitrary figure layer in the plurality of figure layer.

In technique scheme, it is preferable that described image generation module 206 also includes: merge module 2068, for by described second image after editor with the plurality of figure lamination also, to generate described target image.

In this technical scheme, in the process of synthesis target image, selected appointment figure layer in there are multiple figure layers of the first image of depth of view information, this appointment figure layer can be the figure layer that user is the most satisfied, then the second image is placed on appointment figure layer, so, on the figure layer being placed in multiple figure layers of the first image to mate the second image most with this second image, and the second image can be carried out editing and processing, final synthesis picture-in-picture target image, certainly, can according to the whole structure of the target image after synthesis, adjust most suitable appointment figure layer, the second image is made to better blend in the first image, AE and the AWB namely making the second image after editor is dissolved in AE and the AWB of the first image well, so that target image is more natural on the whole, target image can also be made more creative, and then improve Consumer's Experience, additionally, in the process of synthesis target image, add and the exchanging of user, terminal is used to carry out processing the enjoyment of image thus adding user.

In technique scheme, it is preferable that the mode editing described second image includes one below or its combination: amplifies, reduce or rotates.

In this technical scheme, the mode editing the second image includes but not limited to one below or its combination: amplifies, reduce or rotates, such as can also is that cutting, it is, of course, also possible to the second image is carried out self-defined by the actual demand according to user, for instance, change brightness and contrast etc., AE and the AWB making the second image after editor is dissolved in AE and the AWB of the first image well, so that target image is more natural on the whole, and then improves Consumer's Experience.

Fig. 3 illustrates the structural representation of terminal according to an embodiment of the invention.

As it is shown on figure 3, terminal 300 according to an embodiment of the invention, including the image processing system 200 based on double; two rear photographic head described in as above any one technical scheme.

In this technical scheme, first image (taking the photograph background image afterwards) with depth of view information is obtained by the double, two rear photographic head shooting of terminal 300, and the shooting of front photographic head obtains the second image (main body foreground image), then the second image is incorporated in first image with depth of view information, to obtain picture-in-picture target image, so, in the target image generated, second image can be dissolved in the first image well, i.e. AE (the AutomaticExposure of the second image, automatic exposure) and AWB (AutomaticWhiteBalance, AWB) and AE and the AWB of the first image can mate very well, so that the picture-in-picture target image generated seems more natural on whole structure and coordinates, and then improve Consumer's Experience.

Fig. 4 illustrates the principle schematic of the image processing system based on double; two rear photographic head according to an embodiment of the invention.

As shown in Figure 4, the image processing system 200 based on double; two rear photographic head according to an embodiment of the invention, including: absorb image module, front picked-up image module and image generation module afterwards.

The following detailed description of in the inventive solutions, the effect of above-mentioned module:

Rear picked-up image module, for taking the photograph the range information of background image (the first image) after obtaining, namely by the ranging scheme in the double; two rear photographic head of terminal and correlation technique, it is possible to take the photograph the range information (depth of view information) of scenery in background image after acquisition; And be additionally operable to: divide different figure layers according to range information, namely according to taking the photograph the range information of scenery in background image after above-mentioned getting, scenery within the scope of certain distance is divided into a figure layer, and images that after so double; two, photographic head obtain can be regarded as and be combined by multiple map overlays.

Front picked-up image module, for the main body foreground image (the second image) taken the photograph before obtaining.

Image generation module, for selecting suitable figure layer (specifying figure layer), namely the main body foreground image obtained according to front photographic head takes the photograph multiple figure layers of background image with double; two rear photographic head after obtaining, allow user oneself select the most satisfied appointment figure layer, carry out the generation of pip image (target image); It is additionally operable to editor's current layer (specifying figure layer), that is: on the figure layer selected, user can Editorial Subject foreground image, such as amplify, rotate, and editor process can the favorite image of customized user, allow the main body foreground image of front photographic head AE and AWB take the photograph in background image after well incorporating AE and the AWB of double; two photographic head afterwards; And be additionally operable to generate pip image: after editting main body foreground image, by the main body foreground image after editor with after take the photograph multiple figure lamination of background image also, thus generating pip image.

Technical scheme is described in detail above in association with accompanying drawing, the main body foreground image that front photographic head obtains can be dissolved into well in the image with depth of view information that double; two rear photographic head obtains, so that the pip image generated seems more natural on whole structure and coordinates, and then improve Consumer's Experience.

In the present invention, term " first ", " second " only for descriptive purposes, and it is not intended that instruction or hint relative importance; Term " multiple " represents two or more. For the ordinary skill in the art, it is possible to understand above-mentioned term concrete meaning in the present invention as the case may be.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations. All within the spirit and principles in the present invention, any amendment of making, equivalent replacement, improvement etc., should be included within protection scope of the present invention.

Claims (11)

1. based on an image processing method for double; two rear photographic head, for terminal, it is characterised in that described method includes:

According to the first shooting instruction received, obtain first image with depth of view information by described double; two rear photographic head;

According to the second shooting instruction received, obtain the second image by the front photographic head of described terminal;

Have in the first image of depth of view information described in described second image is incorporated into, to generate target image.

2. the image processing method based on double; two rear photographic head according to claim 1, it is characterised in that first image described in acquisition with depth of view information specifically also includes:

Obtain the range information of scenery in described first image;

According to described range information, the scenery within the scope of different distance is divided to different figure layers, to obtain multiple figure layer.

3. the image processing method based on double; two rear photographic head according to claim 2, it is characterised in that described second image is incorporated in described first image and specifically includes:

According to the selection instruction received, choose appointment figure layer;

Being placed on described appointment figure layer by described second image, and according to the edit instruction received, edit described second image, wherein, described appointment figure layer is the arbitrary figure layer in the plurality of figure layer.

4. the image processing method based on double; two rear photographic head according to claim 3, it is characterised in that by described second image after editor with the plurality of figure lamination also, to generate described target image.

5. the image processing method based on double; two rear photographic head according to claim 3 or 4, it is characterised in that the mode editing described second image includes one below or its combination:

Amplify, reduce or rotate.

6. based on an image processing system for double; two rear photographic head, for terminal, it is characterised in that described system includes:

Rear picked-up image module, for according to the first shooting instruction received, obtaining first image with depth of view information by described double; two rear photographic head;

Front picked-up image module, for according to the second shooting instruction received, obtaining the second image by the front photographic head of described terminal;

Image generation module, has in the first image of depth of view information, to generate target image described in being incorporated into by described second image.

7. the image processing system based on double; two rear photographic head according to claim 6, it is characterised in that after described, picked-up image module specifically includes:

Acquisition module, for obtaining the range information of the scenery in described first image;

Divide module, for the scenery within the scope of different distance being divided to different figure layers according to described range information, to obtain multiple figure layer.

8. the image processing system based on double; two rear photographic head according to claim 7, it is characterised in that described image generation module specifically includes:

Select module, for according to the selection instruction received, choosing appointment figure layer;

Module is set, for described second image is placed in described appointment figure layer;

Editor module, for according to the edit instruction received, editing described second image, wherein, described appointment figure layer is the arbitrary figure layer in the plurality of figure layer.

9. the image processing system based on double; two rear photographic head according to claim 8, it is characterised in that described image generation module also includes:

Merge module, for by described second image after editor with the plurality of figure lamination also, to generate described target image.

10. the image processing system based on double; two rear photographic head according to claim 8 or claim 9, it is characterised in that the mode editing described second image includes one below or its combination:

Amplify, reduce or rotate.

11. a terminal, it is characterised in that include the image processing system based on double; two rear photographic head as according to any one of claim 6 to 10.