CN104184943B - Image capturing method and device - Google Patents

Abstract

The disclosure, about a kind of image capturing method and device, belongs to technical field of image processing.Described method is applied to and includes in the terminal of camera, comprising: start described camera, obtains current picture; Original light source in described current picture is treated to the diffraction light sources of reservation shape; The position of the original light source described in described current picture that described diffraction light sources is added to, obtains photographic images.Described device comprises: picture acquisition module, light source processing module and image taking module.The disclosure can solve when photographic images, terminal needs star sensor is installed and terminal also needs to regulate acquisition parameters, make terminal taking image need to consume a large amount of time, cause the inefficient problem of the image taking of terminal, the effect improving image taking efficiency can be reached.

Description

Image capturing method and device

Technical field

The disclosure relates to technical field of image processing, particularly a kind of image capturing method and device.

Background technology

Universal along with various photographic equipment, increasing people like having gone up photography, shoot everyone pursuit especially of the works that have good quality.When taking the special frame of such as light diffraction and so on, can use star sensor that light is processed into starlight shape, to beautify the image effect taken and obtain.

A kind of image capturing method that correlation technique provides comprises: the terminal receiving parameter regulating command being provided with star sensor and camera, and this parameter regulating command is used to indicate terminal and adopts Night to take; Arrange according to the acquisition parameters of parameter to terminal entrained in this parameter regulating command, obtain Night; Obtain the picture through star sensor process, this star sensor is used for the shape light source in picture being treated to star; The picture got is taken, obtains image.

Inventor is realizing in process of the present disclosure, finds to there is following defect during correlation technique is at least:

When photographic images, terminal needs star sensor is installed and terminal also needs to regulate acquisition parameters, make terminal taking image need to consume a large amount of time, cause the shooting efficiency of terminal lower.

Summary of the invention

Terminal needing to be provided with star sensor and terminal also needs to regulate acquisition parameters for solving, causing the inefficient problem of the image taking of terminal, present disclose provides a kind of image capturing method and device.

According to the first aspect of disclosure embodiment, provide a kind of image capturing method, be applied to and include in the terminal of camera, comprising:

Start described camera, obtain current picture;

Original light source in described current picture is treated to the diffraction light sources of reservation shape;

The position of the original light source described in described current picture that described diffraction light sources is added to, obtains photographic images;

Wherein, whether described method, also comprises: detect and adopt starlight screening-mode to take; Adopt described starlight screening-mode to take if detect, then obtain the described original light source in described current picture;

Wherein, the described original light source in the described current picture of described acquisition, comprising: obtain the light source in described current picture; If described light source is at least two, then whether there is the combination of light sources of at least one pair of symmetry at least two light sources described in detecting; If detect the combination of light sources that there is at least one pair of symmetry described, then the light source of pre-position in often pair of combination of light sources is defined as described original light source;

Wherein, described the light source of pre-position in often pair of combination of light sources is defined as described original light source, comprise: the light source at the top position place being positioned at described current picture in described combination of light sources is defined as described original light source, the light source of the lower position being positioned at described current picture in combination of light sources is defined as symmetrical light sources, and the position of described symmetrical light sources is the below of the position in described original light source.

Optionally, whether described detection adopts starlight screening-mode to take, and comprising:

Detect and whether receive starlight pattern shooting instruction, receive described starlight pattern shooting instruction if detect, then determine to adopt described starlight pattern to take; Or,

Whether the system time detecting described terminal belongs to the default period at night, if detect, described system time belongs to the described period at night, then determine to adopt described starlight screening-mode to take; Or,

Whether the brightness detecting each pixel in described current picture meets the brightness conditions preset, if detect, the brightness of each pixel meets described brightness conditions, then determine to adopt described starlight screening-mode to take, meet described brightness conditions to comprise: in described current picture, the brightness of all pixels is all lower than the first luminance threshold, or, in described current picture, the brightness of Part I pixel is greater than the second luminance threshold, the brightness of Part II pixel is less than described second luminance threshold and the ratio of the number of the number of described Part I pixel and described Part II pixel is less than predetermined ratio.

Optionally, the described original light source in the described current picture of described acquisition, comprising:

To search in described current picture brightness more than at least one pixel of the 3rd luminance threshold;

For each pixel, whether the brightness detecting described pixel is greater than predetermined difference value with the difference of the brightness comprising other pixel in the presumptive area of described pixel, if detect, the difference of the brightness of described pixel and the brightness of other pixel is greater than described predetermined difference value, then determine that described pixel is all or part of of described original light source.

Optionally, the light source in the described current picture of described acquisition, comprising:

Identify at least one light source in described current picture;

Point-source of light at least one light source described is defined as the described light source got.

Optionally, described diffraction light sources original light source in described current picture being treated to reservation shape, comprising:

Identify the image information of described current picture;

The described reservation shape corresponding with described image information is obtained according to corresponding relation;

Described original light source is treated to the described diffraction light sources of described reservation shape.

According to the second aspect of disclosure embodiment, propose a kind of image capturing device, be applied to and include in the terminal of camera, comprising:

Picture acquisition module, is configured to start described camera, obtains current picture;

Light source processing module, the original light source be configured in the described current picture got by described picture acquisition module is treated to the diffraction light sources of reservation shape;

Image taking module, is configured to the described diffraction light sources after by the process of described light source processing module and is added to the position of original light source described in described current picture, obtain photographic images;

Whether wherein, described device, also comprises: mode detection module, be configured to detect adopt starlight screening-mode to take;

Light source acquisition module, is configured to, when described mode detection module detects that the described starlight screening-mode of employing is taken, obtain the described original light source in described current picture;

Wherein, described light source acquisition module, also comprises:

Light source obtains submodule, is configured to obtain the light source in described current picture;

Symmetrical detection sub-module, is configured to, when the described light source that described light source obtains submodule acquisition is at least two, whether to there is the combination of light sources of at least one pair of symmetry at least two light sources described in detection;

Second determines submodule, is configured to, when described symmetrical detection sub-module detects the combination of light sources that there is at least one pair of symmetry described, the light source of pre-position in often pair of combination of light sources is defined as described original light source;

Wherein, described second determines submodule, the light source at the top position place being positioned at described current picture in described combination of light sources is also configured to be defined as described original light source, the light source of the lower position being positioned at described current picture in combination of light sources is defined as symmetrical light sources, and the position of described symmetrical light sources is the below of the position in described original light source.

Optionally, described mode detection module, comprising:

First detection sub-module, being configured to detect whether receive starlight pattern shooting instruction, when detecting that receiving described starlight pattern takes instruction, determining to adopt described starlight pattern to take; Or,

Second detection sub-module, whether the system time being configured to detect described terminal belongs to the default period at night, when detecting that described system time belongs to the described period at night, determines to adopt described starlight screening-mode to take; Or,

3rd detection sub-module, whether the brightness being configured to detect each pixel in described current picture meets the brightness conditions preset, when detecting that the brightness of each pixel meets described brightness conditions, determine to adopt described starlight screening-mode to take, meet described brightness conditions to comprise: in described current picture, the brightness of all pixels is all lower than the first luminance threshold, or, in described current picture, the brightness of Part I pixel is greater than the second luminance threshold, the brightness of Part II pixel is less than described second luminance threshold and the ratio of the number of the number of described Part I pixel and described Part II pixel is less than predetermined ratio.

Optionally, described light source acquisition module, comprising:

Pixel searches submodule, to be configured to search in described current picture brightness more than at least one pixel of the 3rd luminance threshold;

First determines submodule, be configured to for each pixel, detect brightness that described pixel searches the described pixel that submodule finds out and whether be greater than predetermined difference value with the difference of the brightness of other pixel in the presumptive area comprising described pixel, when the difference of the brightness of the brightness and other pixel that detect described pixel is greater than described predetermined difference value, determine that described pixel is all or part of of described original light source.

Optionally, described light source obtains submodule, comprising:

Light source recognin module, is configured at least one light source identified in described current picture;

3rd determines submodule, and the point-source of light be configured at least one light source described in being gone out by described light source recognin Module recognition is defined as the described light source got.

Optionally, described light source processing module, comprising:

Picture recognin module, is configured to the image information identifying described current picture;

Form fit submodule, is configured to obtain the described reservation shape corresponding with the described image information that described picture recognin Module recognition goes out according to corresponding relation;

Light source process submodule, is configured to the described diffraction light sources described original light source being treated to the described reservation shape that described form fit submodule matches.

According to the third aspect of disclosure embodiment, propose a kind of image capturing device, be applied to and include in the terminal of camera, comprising:

Processor;

For the memory of storage of processor executable instruction;

Wherein, described processor is configured to:

Start described camera, obtain current picture;

Original light source in described current picture is treated to the diffraction light sources of reservation shape;

The position of the original light source described in described current picture that described diffraction light sources is added to, obtains photographic images;

Also comprise: detect and whether adopt starlight screening-mode to take; Adopt described starlight screening-mode to take if detect, then obtain the described original light source in described current picture;

Wherein, the described original light source in the described current picture of described acquisition, comprising: obtain the light source in described current picture;

If described light source is at least two, then whether there is the combination of light sources of at least one pair of symmetry at least two light sources described in detecting; If detect the combination of light sources that there is at least one pair of symmetry described, then the light source of pre-position in often pair of combination of light sources is defined as described original light source,

Wherein, described the light source of pre-position in often pair of combination of light sources is defined as described original light source, comprise: the light source at the top position place being positioned at described current picture in described combination of light sources is defined as described original light source, the light source of the lower position being positioned at described current picture in combination of light sources is defined as symmetrical light sources, and the position of described symmetrical light sources is the below of the position in described original light source.

The technical scheme that embodiment of the present disclosure provides can comprise following beneficial effect:

By starting camera, obtain current picture; Original light source in current picture is treated to the diffraction light sources of reservation shape; The position of original light source in current picture that diffraction light sources is added to, obtain photographic images, by terminal, the original light source in current picture can be treated to diffraction light sources, and do not need the effect by star sensor, original light source being treated to diffraction light sources, solving terminal needs to be provided with star sensor and terminal also needs to regulate acquisition parameters, make terminal taking image need to consume the problem of a large amount of time, reach the effect improving image taking efficiency.

Should be understood that, it is only exemplary that above general description and details hereinafter describe, and can not limit the disclosure.

Accompanying drawing explanation

Accompanying drawing to be herein merged in specification and to form the part of this specification, shows and meets embodiment of the present disclosure, and is used from specification one and explains principle of the present disclosure

Fig. 1 is the method flow diagram of a kind of image capturing method according to an exemplary embodiment.

Fig. 2 A is the method flow diagram of a kind of image capturing method according to another exemplary embodiment.

Fig. 2 B is the schematic diagram of the selection starlight screening-mode according to an exemplary embodiment.

Fig. 2 C is the schematic diagram of the combination of light sources according to an exemplary embodiment.

Fig. 2 D is the schematic diagram of the selection reservation shape according to an exemplary embodiment.

Fig. 2 E is the schematic diagram of the Auto-matching diffractive shape according to an exemplary embodiment.

Fig. 3 is the structured flowchart of a kind of image capturing device shown in an exemplary embodiment.

Fig. 4 is the structured flowchart of a kind of image capturing device according to another exemplary embodiment.

Fig. 5 is a kind of block diagram for image capturing device according to an exemplary embodiment.

Embodiment

Here will be described exemplary embodiment in detail, its sample table shows in the accompanying drawings.When description below relates to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawing represents same or analogous key element.Execution mode described in following exemplary embodiment does not represent all execution modes consistent with the disclosure.On the contrary, they only with as in appended claims describe in detail, the example of apparatus and method that aspects more of the present disclosure are consistent.

Fig. 1 is the method flow diagram of a kind of image capturing method according to an exemplary embodiment, and this image capturing method can be applied to and include in the terminal of camera.As shown in Figure 1, this image capturing method comprises the following steps.

In a step 101, start camera, obtain current picture.

Current picture is that terminal starts after camera, to be got and be presented at the picture to be captured in the display interface of terminal by camera at current time.

In a step 102, the original light source in current picture is treated to the diffraction light sources of reservation shape.

Original light source refers to light source luminous in current picture.Such as, original light source can be the electric light turned on, the candle and the moon etc. lighted.Diffraction light sources is the light source obtained after original light source is processed into reservation shape.

Terminal can identify original light source, and processes the light source identified, and obtains diffraction light sources.

In step 103, in the current picture that diffraction light sources is added to, the position of original light source, obtains photographic images.

Terminal is when identifying original light source, and can also obtain the position of original light source in current picture, be added to diffraction light sources this position, obtains the picture after superposing.If user is to the good results of the picture after superposition, then the picture after superposition can be taken, can image be obtained.

In the present embodiment, original image in current picture can be treated to diffraction light sources by terminal, and do not need to install star sensor before camera, by star sensor, original light source is treated to diffraction light sources, both can having avoided the problem of the image taking inefficiency that adjustment acquisition parameters causes when using star sensor, having reached the effect improving image taking efficiency; Also the cost installing star sensor in the terminal can be saved.

In sum, a kind of image capturing method that the disclosure provides, by starting camera, obtains current picture; Original light source in current picture is treated to the diffraction light sources of reservation shape; The position of original light source in current picture that diffraction light sources is added to, obtain photographic images, by terminal, the original light source in current picture can be treated to diffraction light sources, and do not need the effect by star sensor, original light source being treated to diffraction light sources, solving terminal needs to be provided with star sensor and terminal also needs to regulate acquisition parameters, make terminal taking image need to consume the problem of a large amount of time, reach the effect improving image taking efficiency.

Fig. 2 A is the method flow diagram of a kind of image capturing method according to another exemplary embodiment, and this image capturing method can be applied to and include in the terminal of camera.As shown in Figure 2 A, this image capturing method comprises the following steps.

In step 201, start camera, obtain current picture.

Current picture is that terminal starts after camera, to be got and be presented at the picture to be captured in the display interface of terminal by camera at current time.

In step 202., whether detection adopts starlight screening-mode to take; Adopt starlight screening-mode to take if detect, then obtain the original light source in current picture.

Starlight screening-mode refers to the screening-mode original light source in current picture being treated to diffraction light sources.Wherein, original light source refers to light source luminous in current picture.Such as, original light source can be the electric light turned on, the candle and the moon etc. lighted.Diffraction light sources is the light source obtained after original light source is processed into reservation shape.

Whether terminal detects the method whether adopting starlight screening-mode to carry out taking is had a variety of, and the present embodiment is described for kind of the detection method of three wherein, then detect and adopt starlight screening-mode to take, comprising:

1) detect whether receive starlight pattern shooting instruction, receive described starlight pattern shooting instruction if detect, then determine to adopt described starlight pattern to take; Or,

2) whether the system time detecting described terminal belongs to the default period at night, if detect, described system time belongs to the described period at night, then determine to adopt described starlight screening-mode to take; Or,

3) whether the brightness detecting each pixel in current picture meets the brightness conditions preset, if detect, the brightness of each pixel meets brightness conditions, then determine to adopt starlight screening-mode to take, meet brightness conditions to comprise: in current picture, the brightness of all pixels is all lower than the first luminance threshold, or in current picture, the brightness of Part I pixel is greater than the second luminance threshold, the brightness of Part II pixel is less than the second luminance threshold and the ratio of the number of the number of Part I pixel and Part II pixel is less than predetermined ratio.

Use the first detection method detect time, terminal can pre-set for triggering starlight screening-mode starlight pattern shooting instruction, and detect user whether trigger this starlight pattern shooting instruction.If detect, user triggers starlight pattern shooting instruction, then determine to adopt starlight screening-mode to take; If detect, user does not trigger starlight pattern shooting instruction, then determine to adopt common screening-mode to take.

Such as, please refer to Fig. 2 B, Fig. 2 B is the schematic diagram of the selection starlight screening-mode according to an exemplary embodiment.The inquiry message whether terminal can show in display interface " adopting starlight screening-mode to take ", and "Yes" option and "No" option are set, if user clicks "Yes" option, then determine that user triggers starlight pattern shooting instruction, adopt starlight screening-mode to take; If user clicks "No" option, then determine that user does not trigger starlight pattern shooting instruction, adopt common screening-mode to take.

When using the second detection method to detect, terminal can pre-set the period at night.Such as, the period at night can be set to [19:00,7:00] by terminal, or be revised as [18:30,5:00] etc. the period at night, the present embodiment does not limit the set-up mode to the period at night.

Terminal can obtain current system time, detects this system time whether within the period at night.If terminal detects that system time is within the period at night, then determine that current is night, in current picture, may light source be there is, need to adopt starlight screening-mode to take; If terminal detects system time not within the period at night, then determine that current is daytime, in current picture, there is not light source, adopt common screening-mode to take.

Such as, the system time that terminal gets is 20:21, and because 20:21 is within the period at night [19:00,7:00], therefore, terminal is determined to adopt starlight screening-mode to take.

When using the second detection method to detect, terminal can determine whether to adopt starlight screening-mode to take according to the brightness of current picture.Because current picture is made up of pixel, therefore, can determine whether to adopt starlight screening-mode to take according to the brightness of each pixel in current picture.

When determining whether according to the brightness of each pixel in current picture to adopt starlight screening-mode to take, terminal can pre-set brightness conditions, and whether the brightness detecting pixel meets this brightness conditions.If terminal detects that the brightness of pixel meets brightness conditions, then determine that current is night, adopt starlight screening-mode to take; If terminal detects that the brightness of pixel does not meet brightness conditions, then determine that current is daytime, adopt common screening-mode to take.

According to different use scenes, terminal can arrange different brightness conditions.Such as, when outdoor shooting, can determine whether it is night according to the brightness of sky; Or, can determine whether it is night according to whether existing in current picture the light source forming sharp contrast with surrounding.

In the first use scenes, because the brightness entirety of night sky is partially dark, therefore, terminal can pre-set the first luminance threshold, and whether the brightness detecting all pixels in current picture is all lower than the first luminance threshold.If terminal detects that the brightness of all pixels is all lower than the first luminance threshold, then determine that the brightness of pixel meets brightness conditions; If terminal detects that the brightness of some pixel is higher than the first luminance threshold, then determine that the brightness of pixel does not meet brightness conditions.In the present embodiment, terminal can also use GPS (GlobalPositioningSystem, global positioning system) to determine that whether terminal is in outdoor.

In the second use scenes, owing to both there is partially dark object, also there is partially bright light source, and the number of pixel corresponding to partially dark object is greater than the number of the pixel corresponding to partially bright light source, therefore, terminal can pre-set the second luminance threshold, and calculate the ratio higher than the pixel of the second luminance threshold and the pixel lower than the second luminance threshold, whether the magnitude relationship determination pixel according to this ratio and predetermined ratio meets brightness conditions.Usually, predetermined ratio be less than 1 numerical value.Wherein, the second luminance threshold can be identical with the first luminance threshold, also can be different with the first luminance threshold.

After terminal detects to adopt starlight screening-mode to take, need to process the original light source in current picture, then first terminal needs to obtain original light source.Wherein, obtain the original light source in current picture, comprising:

1) brightness is searched in current picture more than at least one pixel of the 3rd luminance threshold;

2) for each pixel, whether the brightness detecting pixel is greater than predetermined difference value with the difference of the brightness comprising other pixel in the presumptive area of pixel, if detect, the difference of the brightness of pixel and the brightness of other pixel is greater than predetermined difference value, then determine that pixel is all or part of of original light source.

If there is original light source in current picture, then the brightness of the pixel of original light source is higher, and around original light source and original light source predetermined magnitude range region in object between brightness there is larger difference, now can identify original light source according to the brightness of pixel.Such as, terminal can obtain the pixel of brightness more than the 3rd luminance threshold, determine other pixel comprised in the presumptive area of this pixel, namely determine other pixel around this pixel, whether the difference detecting the brightness of this pixel and the brightness of other pixel is greater than predetermined difference value.If terminal detects that the difference of the brightness of this pixel and the brightness of other all pixel is all greater than predetermined difference value, then determine that this pixel is all or part of of original light source; If terminal detects that the difference of the brightness of this pixel and the brightness of other arbitrary pixel is less than predetermined difference value, then determine that this pixel is not original light source.Wherein, the size of presumptive area and predetermined difference value can be arranged by user and revise.

Because the original light source in current picture also can obtain symmetrical light sources by lake surface or mirror-reflection, and terminal does not process symmetrical light sources, therefore, obtains the original light source in current picture, comprising:

1) light source in current picture is obtained;

2) if light source is at least two, then the combination of light sources that whether there is at least one pair of symmetry at least two light sources is detected;

3) if detect the combination of light sources that there is at least one pair of symmetry, then the light source of pre-position in often pair of combination of light sources is defined as original light source.

Terminal, after getting the light source in current picture, obtains the quantity of light source.When the quantity of light source is at least two, terminal needs to detect in current picture whether there is symmetrical combination of light sources.Combination of light sources comprises original light source and forms with the symmetrical light sources of original light source symmetry.

When detecting the combination of light sources that whether there is symmetry in current picture, terminal can obtain the distribution situation of light source in current picture, when distribution situation indicates multiple light source about lines or plane symmetry, then determines to there is combination of light sources; Or terminal can obtain the light source information such as shape and brightness of light source in current picture, and same or analogous for light source information light source is defined as combination of light sources.

After determining combination of light sources, terminal also needs to determine original light source from combination of light sources.Because major part reflection is due to lake surface and mirror-reflection, therefore, the position of symmetrical light sources is the below of the position in original light source, then the light source at the top position place being positioned at current picture in combination of light sources can be defined as original light source by terminal, and the light source of the lower position being positioned at current picture in combination of light sources is defined as symmetrical light sources.Certainly, according to different reflection reasons, terminal can also arrange the method that other determines the original light source in combination of light sources.

Fig. 2 C is the schematic diagram of the combination of light sources according to an exemplary embodiment, as as shown in Fig. 2 C (1), street lamp is mounted in limit, pond, therefore, there is inverted image in the original light source 211 in current picture, namely the water surface can show the symmetrical light sources 212 with original light source 211 symmetry in pond.

Wherein, obtain the light source in current picture, comprising:

1) at least one light source in current picture is identified;

2) point-source of light at least one light source is defined as the light source got.

In the present embodiment, terminal can process all light sources in current picture, also can process the light source of predefined type in picture, this sentences terminal and is treated to example to the point-source of light in current picture and is described, then terminal can filter out point-source of light as original light source from the light source of current picture.Such as, terminal can analyze the pixel distribution situation of light source, when the pixel of light source is rounded or sub-circular distribution time, terminal determines that this light source is point-source of light, and namely this light source is original light source.

In step 203, the original light source in current picture is treated to the diffraction light sources of reservation shape.

Terminal, before processing original light source, also needs to determine to carry out the rear reservation shape to display of process to original light source.This reservation shape can be the shape of terminal acquiescence or Stochastic choice, and also can be the shape that user selects from shape library, can also be the shape that terminal goes out according to the form fit of original light source.Wherein, reservation shape can be at least one in multi-corner star-shape, polygon, circle, annular and cardioid.

Fig. 2 D is the schematic diagram of the selection reservation shape according to an exemplary embodiment, as shown in Figure 2 D, suppose that reservation shape comprises annular, circle, hexagram, corner star, anistree star, pentalpha and heart, then terminal can show above-mentioned shape, and in display interface, show the information of " please diffractive shape be select ", user, after have selected reservation shape, can click " confirmation " option and determine; If desired reselect, then click " cancellation " option and reselect.

Optionally, the original light source in current picture according to the image information determination reservation shape of current picture, to increase the interest of image taking, then can also be treated to the diffraction light sources of reservation shape, comprise by terminal:

1) image information of current picture is identified;

2) reservation shape corresponding with image information is obtained according to corresponding relation;

3) original light source is treated to the diffraction light sources of reservation shape.

Wherein, image information refers to the information of the object or person thing shown in current picture.Corresponding relation refers to the one-to-one relationship between different image informations and different reservation shapes.Such as, when image information indicate current comprise girl or lovers time, reservation shape can be heart-shaped, then can set up girl and heart-shaped corresponding relation, and lovers and heart-shaped corresponding relation; When image information indicate current picture comprise child time, reservation shape can be starlight shape, then can set up the corresponding relation of child and starlight shape.

Terminal can obtain image information according to the feature of object or person thing in current picture, searches the reservation shape corresponding with this image information, then original light source is treated to the diffraction light sources of this reservation shape in corresponding relation.The present embodiment is to be described according to character features determination image information, then terminal can obtain the face information in current picture by face recognition technology, if indicate this personage to be coated with lipstick in face information, then terminal determination current picture comprises girl.

After determining reservation shape by said method, original light source can be treated to the diffraction light sources of reservation shape by terminal.Such as, the color of the pixel in reservation shape and brightness can be set to color and the brightness of the pixel in original light source by terminal, obtain diffraction light sources.

Fig. 2 E is the schematic diagram of the Auto-matching diffractive shape according to an exemplary embodiment, as shown in Fig. 2 E (1), current picture comprises a girl and an original light source, after terminal comprises girl according to character features determination current picture, in corresponding relation, find reservation shape is heart-shaped, then original light source is treated to heart-shaped diffraction light sources, as shown in Fig. 2 E (2).

In step 204, in the current picture that diffraction light sources is added to, the position of original light source, obtains photographic images.

Terminal is when identifying original light source, and can also obtain the position of original light source in current picture, be added to diffraction light sources this position, obtains the picture after superposing.If user is to the good results of the picture after superposition, then the picture after superposition can be taken, can image be obtained.

Please refer to Fig. 2 C (2), original light source 211 is treated to the diffraction light sources 213 of starlight shape by terminal, and the position of the original light source 211 that diffraction light sources 213 is added to shows, and does not process symmetrical light sources 212.

In the present embodiment, original image in current picture can be treated to diffraction light sources by terminal, and do not need to install star sensor before camera, by star sensor, original light source is treated to diffraction light sources, both can having avoided the problem of the image taking inefficiency that adjustment acquisition parameters causes when using star sensor, having reached the effect improving image taking efficiency; Also the cost installing star sensor in the terminal can be saved.

In sum, a kind of image capturing method that the disclosure provides, by starting camera, obtains current picture; Original light source in current picture is treated to the diffraction light sources of reservation shape; The position of original light source in current picture that diffraction light sources is added to, obtain photographic images, by terminal, the original light source in current picture can be treated to diffraction light sources, and do not need the effect by star sensor, original light source being treated to diffraction light sources, solving terminal needs to be provided with star sensor and terminal also needs to regulate acquisition parameters, make terminal taking image need to consume the problem of a large amount of time, reach the effect improving image taking efficiency.

In addition, by identifying the image information of current picture; The reservation shape corresponding with image information is obtained according to corresponding relation; Original light source is treated to the diffraction light sources of reservation shape, reservation shape can be gone out according to the character features Auto-matching in current picture, improve the interest of image taking.

Fig. 3 is the structured flowchart of a kind of image capturing device shown in an exemplary embodiment, and this image capturing device can be applied to and include in the terminal of camera.As shown in Figure 3, this image capturing device, comprising: picture acquisition module 301, light source processing module 302, image taking module 303.

This picture acquisition module 301, is configured to start camera, obtains current picture;

This light source processing module 302, the original light source be configured in the current picture got by picture acquisition module 301 is treated to the diffraction light sources of reservation shape;

This image taking module 303, is configured to the diffraction light sources after light source processing module 302 being processed and is added to the position of original light source in current picture, obtain photographic images.

In sum, a kind of image capturing device that the disclosure provides, by starting camera, obtains current picture; Original light source in current picture is treated to the diffraction light sources of reservation shape; The position of original light source in current picture that diffraction light sources is added to, obtain photographic images, by terminal, the original light source in current picture can be treated to diffraction light sources, and do not need the effect by star sensor, original light source being treated to diffraction light sources, solving terminal needs to be provided with star sensor and terminal also needs to regulate acquisition parameters, make terminal taking image need to consume the problem of a large amount of time, reach the effect improving image taking efficiency.

Fig. 4 is the structured flowchart of a kind of image capturing device according to another exemplary embodiment, and this image capturing device can be applied to and include in the terminal of camera.As shown in Figure 4, this image capturing device, comprising: picture acquisition module 301, light source processing module 302, image taking module 303.

This picture acquisition module 301, is configured to start camera, obtains current picture;

This light source processing module 302, the original light source be configured in the current picture got by picture acquisition module 301 is treated to the diffraction light sources of reservation shape;

This image taking module 303, is configured to the diffraction light sources after light source processing module 302 being processed and is added to the position of original light source in current picture, obtain photographic images.

Optionally, the image capturing device in the present embodiment, also comprises: mode detection module 304 and light source acquisition module 305;

Whether this mode detection module 304, be configured to detection and adopt starlight screening-mode to take;

This light source acquisition module 305, is configured to, when mode detection module 304 detects that employing starlight screening-mode is taken, obtain the original light source in current picture.

Optionally, mode detection module 304, comprising: the first detection sub-module 3041, second detection sub-module 3042 and the 3rd detection sub-module 3043;

This first detection sub-module 3041, is configured to detect whether receive starlight pattern shooting instruction, when detecting that receiving starlight pattern takes instruction, determines to adopt starlight pattern to take; Or,

This second detection sub-module 3042, whether the system time being configured to sense terminals belongs to the default period at night, if detect, system time belongs to the period at night, then determine to adopt starlight screening-mode to take; Or,

3rd detection sub-module 3043, whether the brightness being configured to detect each pixel in current picture meets the brightness conditions preset, when detecting that the brightness of each pixel meets brightness conditions, determine to adopt starlight screening-mode to take, meet brightness conditions to comprise: in current picture, the brightness of all pixels is all lower than the first luminance threshold, or, in current picture, the brightness of Part I pixel is greater than the second luminance threshold, the brightness of Part II pixel is less than the second luminance threshold and the ratio of the number of the number of Part I pixel and Part II pixel is less than predetermined ratio.

Optionally, light source acquisition module 305, comprising: pixel is searched submodule 3051 and first and determined submodule 3052;

This pixel searches submodule 3051, to be configured to search in current picture brightness more than at least one pixel of the 3rd luminance threshold;

This first determines submodule 3052, be configured to for each pixel, detect the brightness of searching the pixel that submodule 3051 finds out by pixel and whether be greater than predetermined difference value with the difference of the brightness of other pixel in the presumptive area comprising pixel, when the difference of the brightness of the brightness and other pixel that detect pixel is greater than predetermined difference value, determine that pixel is all or part of of original light source.

Optionally, light source acquisition module 305, comprising: light source obtains submodule 3053, symmetrical detection sub-module 3054 and second determines submodule 3055;

This light source obtains submodule 3053, is configured to obtain the light source in current picture;

This symmetrical detection sub-module 3054, is configured to, when the light source that light source obtains submodule 3053 acquisition is at least two, detect the combination of light sources that whether there is at least one pair of symmetry at least two light sources;

This second determines submodule 3055, is configured to, when symmetrical detection sub-module 3054 detects the combination of light sources that there is at least one pair of symmetry, the light source of pre-position in often pair of combination of light sources is defined as original light source.

Optionally, light source obtains submodule 3053, comprising: light source recognin module 30531 and the 3rd determines submodule 30532;

This light source recognin module 30531, is configured to identify at least one light source in current picture;

3rd determines submodule 30532, and the point-source of light be configured at least one light source light source recognin module 30531 identified is defined as the light source got.

Optionally, light source processing module 302, comprising: picture recognin module 3021, form fit submodule 3022 and light source process submodule 3023;

This picture recognin module 3021, is configured to the image information identifying current picture;

This form fit submodule 3022, is configured to obtain the reservation shape corresponding with the image information that picture recognin module 3021 identifies according to corresponding relation;

This light source process submodule 3021, is configured to diffraction light sources original light source being treated to the reservation shape that form fit submodule 3022 matches.

In sum, a kind of image capturing device that the disclosure provides, by starting camera, obtains current picture; Original light source in current picture is treated to the diffraction light sources of reservation shape; The position of original light source in current picture that diffraction light sources is added to, obtain photographic images, by terminal, the original light source in current picture can be treated to diffraction light sources, and do not need the effect by star sensor, original light source being treated to diffraction light sources, solving terminal needs to be provided with star sensor and terminal also needs to regulate acquisition parameters, make terminal taking image need to consume the problem of a large amount of time, reach the effect improving image taking efficiency.

In addition, by identifying the image information of current picture; The reservation shape corresponding with image information is obtained according to corresponding relation; Original light source is treated to the diffraction light sources of reservation shape, reservation shape can be gone out according to the character features Auto-matching in current picture, improve the interest of image taking.

Fig. 5 is a kind of block diagram for image capturing device 500 according to an exemplary embodiment.Such as, device 500 can be mobile phone, computer, digital broadcast terminal, messaging devices, game console, flat-panel devices, Medical Devices, body-building equipment, personal digital assistant etc.

With reference to Fig. 5, device 500 can comprise following one or more assembly: processing components 502, memory 504, power supply module 506, multimedia groupware 508, audio-frequency assembly 510, the interface 512 of I/O (I/O), sensor cluster 514, and communications component 516.

The integrated operation of the usual control device 500 of processing components 502, such as with display, call, data communication, camera operation and record operate the operation be associated.Processing components 502 can comprise one or more processor 518 to perform instruction, to complete all or part of step of above-mentioned method.In addition, processing components 502 can comprise one or more module, and what be convenient between processing components 502 and other assemblies is mutual.Such as, processing components 502 can comprise multi-media module, mutual with what facilitate between multimedia groupware 508 and processing components 502.

Memory 504 is configured to store various types of data to be supported in the operation of device 500.The example of these data comprises the instruction of any application program for operating on device 500 or method, contact data, telephone book data, message, picture, video etc.Memory 504 can be realized by the volatibility of any type or non-volatile memory device or their combination, as static RAM (SRAM), Electrically Erasable Read Only Memory (EEPROM), Erasable Programmable Read Only Memory EPROM (EPROM), programmable read only memory (PROM), read-only memory (ROM), magnetic memory, flash memory, disk or CD.

The various assemblies that power supply module 506 is device 500 provide electric power.Power supply module 506 can comprise power-supply management system, one or more power supply, and other and the assembly generating, manage and distribute electric power for device 500 and be associated.

Multimedia groupware 508 is included in the screen providing an output interface between described device 500 and user.In certain embodiments, screen can comprise liquid crystal display (LCD) and touch panel (TP).If screen comprises touch panel, screen may be implemented as touch-screen, to receive the input signal from user.Touch panel comprises one or more touch sensor with the gesture on sensing touch, slip and touch panel.Described touch sensor can the border of not only sensing touch or sliding action, but also detects the duration relevant to described touch or slide and pressure.In certain embodiments, multimedia groupware 508 comprises a front-facing camera and/or post-positioned pick-up head.When device 500 is in operator scheme, during as screening-mode or video mode, front-facing camera and/or post-positioned pick-up head can receive outside multi-medium data.Each front-facing camera and post-positioned pick-up head can be fixing optical lens systems or have focal length and optical zoom ability.

Audio-frequency assembly 510 is configured to export and/or input audio signal.Such as, audio-frequency assembly 510 comprises a microphone (MIC), and when device 500 is in operator scheme, during as call model, logging mode and speech recognition mode, microphone is configured to receive external audio signal.The audio signal received can be stored in memory 504 further or be sent via communications component 516.In certain embodiments, audio-frequency assembly 510 also comprises a loud speaker, for output audio signal.

I/O interface 512 is for providing interface between processing components 502 and peripheral interface module, and above-mentioned peripheral interface module can be keyboard, some striking wheel, button etc.These buttons can include but not limited to: home button, volume button, start button and locking press button.

Sensor cluster 514 comprises one or more transducer, for providing the state estimation of various aspects for device 500.Such as, sensor cluster 514 can detect the opening/closing state of device 500, the relative positioning of assembly, such as described assembly is display and the keypad of device 500, the position of all right checkout gear 500 of sensor cluster 514 or device 500 1 assemblies changes, the presence or absence that user contacts with device 500, the variations in temperature of device 500 orientation or acceleration/deceleration and device 500.Sensor cluster 514 can comprise proximity transducer, be configured to without any physical contact time detect near the existence of object.Sensor cluster 514 can also comprise optical sensor, as CMOS or ccd image sensor, for using in imaging applications.In certain embodiments, this sensor cluster 514 can also comprise acceleration transducer, gyro sensor, Magnetic Sensor, pressure sensor or temperature sensor.

Communications component 516 is configured to the communication being convenient to wired or wireless mode between device 500 and other equipment.Device 500 can access the wireless network based on communication standard, as WiFi, 2G or 3G, or their combination.In one exemplary embodiment, communications component 516 receives from the broadcast singal of external broadcasting management system or broadcast related information via broadcast channel.In one exemplary embodiment, described communications component 516 also comprises near-field communication (NFC) module, to promote junction service.Such as, can based on radio-frequency (RF) identification (RFID) technology in NFC module, Infrared Data Association (IrDA) technology, ultra broadband (UWB) technology, bluetooth (BT) technology and other technologies realize.

In the exemplary embodiment, device 500 can be realized, for performing said method by one or more application specific integrated circuit (ASIC), digital signal processor (DSP), digital signal processing appts (DSPD), programmable logic device (PLD), field programmable gate array (FPGA), controller, microcontroller, microprocessor or other electronic components.

In the exemplary embodiment, additionally provide a kind of non-transitory computer-readable recording medium comprising instruction, such as, comprise the memory 504 of instruction, above-mentioned instruction can perform said method by the processor 518 of device 500.Such as, described non-transitory computer-readable recording medium can be ROM, random access memory (RAM), CD-ROM, tape, floppy disk and optical data storage devices etc.

Those skilled in the art, at consideration specification and after putting into practice disclosure herein, will easily expect other embodiment of the present disclosure.The application is intended to contain any modification of the present disclosure, purposes or adaptations, and these modification, purposes or adaptations are followed general principle of the present disclosure and comprised the undocumented common practise in the art of the disclosure or conventional techniques means.Specification and embodiment are only regarded as exemplary, and true scope of the present disclosure and spirit are pointed out by claim below.

Should be understood that, the disclosure is not limited to precision architecture described above and illustrated in the accompanying drawings, and can carry out various amendment and change not departing from its scope.The scope of the present disclosure is only limited by appended claim.

Claims (11)

1. an image capturing method, is applied to and includes in the terminal of camera, it is characterized in that, comprising:

Start described camera, obtain current picture;

Original light source in described current picture is treated to the diffraction light sources of reservation shape;

The position of the original light source described in described current picture that described diffraction light sources is added to, obtains photographic images;

Wherein, whether described method, also comprises: detect and adopt starlight screening-mode to take; Adopt described starlight screening-mode to take if detect, then obtain the described original light source in described current picture;

Wherein, the described original light source in the described current picture of described acquisition, comprising: obtain the light source in described current picture; If described light source is at least two, then whether there is the combination of light sources of at least one pair of symmetry at least two light sources described in detecting; If detect the combination of light sources that there is at least one pair of symmetry described, then the light source of pre-position in often pair of combination of light sources is defined as described original light source;

Wherein, described the light source of pre-position in often pair of combination of light sources is defined as described original light source, comprise: the light source at the top position place being positioned at described current picture in described combination of light sources is defined as described original light source, the light source of the lower position being positioned at described current picture in combination of light sources is defined as symmetrical light sources, and the position of described symmetrical light sources is the below of the position in described original light source.

2. method according to claim 1, is characterized in that, whether described detection adopts starlight screening-mode to take, and comprising:

Detect and whether receive starlight pattern shooting instruction, receive described starlight pattern shooting instruction if detect, then determine to adopt described starlight pattern to take; Or,

Whether the system time detecting described terminal belongs to the default period at night, if detect, described system time belongs to the described period at night, then determine to adopt described starlight screening-mode to take; Or,

Whether the brightness detecting each pixel in described current picture meets the brightness conditions preset, if detect, the brightness of each pixel meets described brightness conditions, then determine to adopt described starlight screening-mode to take, meet described brightness conditions to comprise: in described current picture, the brightness of all pixels is all lower than the first luminance threshold, or, in described current picture, the brightness of Part I pixel is greater than the second luminance threshold, the brightness of Part II pixel is less than described second luminance threshold and the ratio of the number of the number of described Part I pixel and described Part II pixel is less than predetermined ratio.

3. method according to claim 1, is characterized in that, the described original light source in the described current picture of described acquisition, comprising:

To search in described current picture brightness more than at least one pixel of the 3rd luminance threshold;

For each pixel, whether the brightness detecting described pixel is greater than predetermined difference value with the difference of the brightness comprising other pixel in the presumptive area of described pixel, if detect, the difference of the brightness of described pixel and the brightness of other pixel is greater than described predetermined difference value, then determine that described pixel is all or part of of described original light source.

4. method according to claim 1, is characterized in that, the light source in the described current picture of described acquisition, comprising:

Identify at least one light source in described current picture;

Point-source of light at least one light source described is defined as the described light source got.

5. the method according to any one of Claims 1-4, is characterized in that, described diffraction light sources original light source in described current picture being treated to reservation shape, comprising:

Identify the image information of described current picture;

The described reservation shape corresponding with described image information is obtained according to corresponding relation;

Described original light source is treated to the described diffraction light sources of described reservation shape.

6. an image capturing device, is applied to and includes in the terminal of camera, it is characterized in that, comprising:

Picture acquisition module, is configured to start described camera, obtains current picture;

Light source processing module, the original light source be configured in the described current picture got by described picture acquisition module is treated to the diffraction light sources of reservation shape;

Image taking module, is configured to the described diffraction light sources after by the process of described light source processing module and is added to the position of original light source described in described current picture, obtain photographic images;

Whether wherein, described device, also comprises: mode detection module, be configured to detect adopt starlight screening-mode to take;

Light source acquisition module, is configured to, when described mode detection module detects that the described starlight screening-mode of employing is taken, obtain the described original light source in described current picture;

Wherein, described light source acquisition module, also comprises:

Light source obtains submodule, is configured to obtain the light source in described current picture;

Symmetrical detection sub-module, is configured to, when the described light source that described light source obtains submodule acquisition is at least two, whether to there is the combination of light sources of at least one pair of symmetry at least two light sources described in detection;

Second determines submodule, is configured to, when described symmetrical detection sub-module detects the combination of light sources that there is at least one pair of symmetry described, the light source of pre-position in often pair of combination of light sources is defined as described original light source;

Wherein, described second determines submodule, the light source at the top position place being positioned at described current picture in described combination of light sources is also configured to be defined as described original light source, the light source of the lower position being positioned at described current picture in combination of light sources is defined as symmetrical light sources, and the position of described symmetrical light sources is the below of the position in described original light source.

7. device according to claim 6, is characterized in that, described mode detection module, comprising:

First detection sub-module, being configured to detect whether receive starlight pattern shooting instruction, when detecting that receiving described starlight pattern takes instruction, determining to adopt described starlight pattern to take; Or,

Second detection sub-module, whether the system time being configured to detect described terminal belongs to the default period at night, when detecting that described system time belongs to the described period at night, determines to adopt described starlight screening-mode to take; Or,

3rd detection sub-module, whether the brightness being configured to detect each pixel in described current picture meets the brightness conditions preset, when detecting that the brightness of each pixel meets described brightness conditions, determine to adopt described starlight screening-mode to take, meet described brightness conditions to comprise: in described current picture, the brightness of all pixels is all lower than the first luminance threshold, or, in described current picture, the brightness of Part I pixel is greater than the second luminance threshold, the brightness of Part II pixel is less than described second luminance threshold and the ratio of the number of the number of described Part I pixel and described Part II pixel is less than predetermined ratio.

8. device according to claim 6, is characterized in that, described light source acquisition module, comprising:

Pixel searches submodule, to be configured to search in described current picture brightness more than at least one pixel of the 3rd luminance threshold;

First determines submodule, be configured to for each pixel, detect brightness that described pixel searches the described pixel that submodule finds out and whether be greater than predetermined difference value with the difference of the brightness of other pixel in the presumptive area comprising described pixel, when the difference of the brightness of the brightness and other pixel that detect described pixel is greater than described predetermined difference value, determine that described pixel is all or part of of described original light source.

9. device according to claim 6, is characterized in that, described light source obtains submodule, comprising:

Light source recognin module, is configured at least one light source identified in described current picture;

3rd determines submodule, and the point-source of light be configured at least one light source described in being gone out by described light source recognin Module recognition is defined as the described light source got.

10. the device according to any one of claim 6 to 9, is characterized in that, described light source processing module, comprising:

Picture recognin module, is configured to the image information identifying described current picture;

Form fit submodule, is configured to obtain the described reservation shape corresponding with the described image information that described picture recognin Module recognition goes out according to corresponding relation;

Light source process submodule, is configured to the described diffraction light sources described original light source being treated to the described reservation shape that described form fit submodule matches.

11. 1 kinds of image capturing devices, is characterized in that, are applied to and include in the terminal of camera, comprising:

Processor;

For the memory of storage of processor executable instruction;

Wherein, described processor is configured to:

Start described camera, obtain current picture;

Original light source in described current picture is treated to the diffraction light sources of reservation shape;

The position of the original light source described in described current picture that described diffraction light sources is added to, obtains photographic images;

Also comprise: detect and whether adopt starlight screening-mode to take; Adopt described starlight screening-mode to take if detect, then obtain the described original light source in described current picture;

Wherein, the described original light source in the described current picture of described acquisition, comprising: obtain the light source in described current picture;

If described light source is at least two, then whether there is the combination of light sources of at least one pair of symmetry at least two light sources described in detecting; If detect the combination of light sources that there is at least one pair of symmetry described, then the light source of pre-position in often pair of combination of light sources is defined as described original light source,

Wherein, described the light source of pre-position in often pair of combination of light sources is defined as described original light source, comprise: the light source at the top position place being positioned at described current picture in described combination of light sources is defined as described original light source, the light source of the lower position being positioned at described current picture in combination of light sources is defined as symmetrical light sources, and the position of described symmetrical light sources is the below of the position in described original light source.