CN109391751A

CN109391751A - Electronic device and camera shooting control method

Info

Publication number: CN109391751A
Application number: CN201710686076.8A
Authority: CN
Inventors: 黄怡仁
Original assignee: Shenzhen Futaihong Precision Industry Co Ltd; Chiun Mai Communication Systems Inc
Current assignee: Shenzhen Futaihong Precision Industry Co Ltd; Chiun Mai Communication Systems Inc
Priority date: 2017-08-11
Filing date: 2017-08-11
Publication date: 2019-02-26
Anticipated expiration: 2037-08-11
Also published as: CN109391751B

Abstract

The present invention provides a kind of electronic device and camera shooting control method, the electronic device includes processor, camera module and storage unit, the camera module includes the first camera unit and the second camera unit, the processor includes obtaining module, when the camera module of the electronic device is opened, the photosensitive value of the camera module is obtained；Whether the photosensitive value of judgment module, the camera module got described in judgement is greater than or equal to one first preset value；Image processing module, when the photosensitive value of the camera module is greater than or equal to first preset value, it controls first camera unit and second camera unit shoots the first image and the second image respectively, synthesizing the first image and second image becomes a third image, and stores the third image to the storage unit.Electronic device is manually operated, automatically into the screening-mode of dual camera, without user when meeting condition according to the photosensitive value of camera in the present invention.

Description

Electronic device and camera shooting control method

Technical field

The present invention relates to image taking field more particularly to a kind of electronic devices and camera shooting control method.

Background technique

With the development of science and technology, intelligent electronic device such as smart phone, tablet computer etc. using more and more extensive, Demand of the user to the camera function of intelligent electronic device is also higher and higher.Nowadays, in order to promote camera shooting performance, many intelligence Electronic equipment is equipped with dual camera.However, electronic equipment is generally required when entering dual camera mode in AD HOC The lower function that could open dual camera shooting, therefore big inconvenience is caused to user.

Summary of the invention

In view of this, it is necessary to provide a kind of electronic device and camera shooting control methods, to solve the above technical problems.

A kind of electronic device, including processor, camera module and storage unit, the camera module include that the first camera shooting is single Member and the second camera unit, the processor include:

Module is obtained, for obtaining the photosensitive value of the camera module when the unlatching of the camera module of the electronic device；

Judgment module, for judging it is default whether the photosensitive value of the camera module got is greater than or equal to one first Value；And

Image processing module, for controlling when the photosensitive value of the camera module is greater than or equal to first preset value It makes first camera unit and second camera unit shoots the first image and the second image respectively, synthesize first figure Picture and second image become a third image, and store the third image to the storage unit.

A kind of camera shooting control method is applied in an electronic device, and the electronic device includes that camera module and storage are single Member, the camera module include the first camera unit and the second camera unit, be the described method comprises the following steps:

When the camera module of the electronic device is opened, the photosensitive value of the camera module is obtained；

Whether the photosensitive value of the camera module got described in judgement is greater than or equal to one first preset value；And

When the photosensitive value of the camera module is greater than or equal to first preset value, first camera unit is controlled Shoot the first image and the second image respectively with second camera unit, synthesize the first image and second image at For a third image, and the third image is stored to the storage unit.

Above-mentioned electronic device and camera shooting control method can keep electronic device default in satisfaction according to the photosensitive value of camera Automatically into the screening-mode of dual camera in the case where condition, it is manually operated without user, effectively improves user experience.

Detailed description of the invention

Fig. 1 is the hardware structural diagram in electronic device better embodiment of the present invention.

Fig. 2 is the functional block diagram in electronic device better embodiment of the present invention.

Fig. 3-5 is the flow diagram of camera shooting control method better embodiment of the present invention.

Main element symbol description

The present invention that the following detailed description will be further explained with reference to the above drawings.

Specific embodiment

Referring to Fig. 1, it illustrates electronic devices 1 provided by better embodiment of the present invention.In the present embodiment, The electronic device 1 can be smart phone, tablet computer or PDA (Personal Digital Assistant, individual digital Assistant) etc. portable electronic devices.The electronic device 1 is include but are not limited to, including processor 10, storage unit 20, is taken the photograph As mould group 30, flash lamp 40, display unit 50 and power supply unit 60.

In the present embodiment, the storage unit 20 can for read-only memory (Read-Only Memory, ROM), Random access memory (Random Access Memory, RAM) or external memory, such as disk or hard disk.It is described to deposit Storage unit 20 is used to store the image that the camera module 30 is shot.

The camera module 30 includes the first camera unit 31 and the second camera unit 32.In the present embodiment, described First camera unit 31 includes color image sensor 310, optical anti-vibration device 311 and the first camera lens 312, the optical anti-vibration Device 311 is to provide optical anti-vibration function.Second camera unit 32 includes black white image sensor 320 and the second camera lens 321。

The flash lamp 40 is used in the case where the 1 local environment light of electronic device is weaker, is the camera module 30 shooting provides light filling.

In the present embodiment, the display unit 50 is touching display screen, for providing display for the electronic device 1 Function.In the present embodiment, said supply unit 60 is the lithium battery of recyclable charging, for mentioning for the electronic device 1 Power supply source.

Referring to Fig. 2, the processor 10 includes at least detecting module 101, obtains module 102, judgment module 103, shadow As processing module 104, opening module 105 and detection module 106.In the present embodiment, above-mentioned module is to be stored in described deposit In storage unit 20 and the programmable software instruction executed can be called by the processor 10.It is understood that in other realities It applies in mode, above-mentioned module can also be to solidify program instruction or firmware (firmware) in the processor 10.

The detecting module 101 is used for when the camera module 30 of the electronic device 1 is opened, and detects first camera shooting The camera parameter of unit 31 and second camera unit 32, and by the camera parameter of second camera unit 32 it is synchronous for The camera parameter of first camera unit 31 is consistent.

Wherein, the camera parameter of first camera unit 31 and second camera unit 32, which is consistent, can be convenient for institute The image that electronic device 1 shoots described two camera units is stated to synthesize.In the present embodiment, the camera parameter packet Include, but be not limited only to, auto-focusing (Auto Focus, AF) parameter, automatic exposure (Auto Exposure, AE) parameter and from Dynamic white balance (Auto White Balance, AWB) parameter.

Photosensitive (ISO) value for obtaining module 102 and being used to obtain the camera module 30.

The judgment module 103 is used to judge whether the photosensitive value of the camera module 30 got to be greater than or equal to one First preset value.

In the present embodiment, first preset value is 800.It is appreciated that in other embodiments, described first Preset value may be set to be other any suitable numerical value.

In a first embodiment, the image processing module 104 is used for when the photosensitive value of the camera module 30 is big In or when being equal to first preset value, control first camera unit 31 and second camera unit 32 and shoot the respectively One image and the second image, synthesizing the first image and second image becomes a third image, and stores the third Image is to the storage unit 20.

In the present embodiment, the first image that first camera unit 31 is shot is color image, and described second takes the photograph The second image shot as unit 32 is black white image, and the image processing module 104 is by the color image and the black and white Image synthesizes the third image, to promote the quality and brightness of the color image that first camera unit 31 is shot.Its In, image composing technique is the prior art, and no further details to be given herein.

The opening module 105 is used to open when the photosensitive value of the camera module 30 is less than first preset value The optical anti-vibration function of first camera unit 31.

In the present embodiment, the optical anti-vibration function is provided by the optical anti-vibration device 311.The optics is anti- Jitter apparatus 311 is a lens set, can be single in first camera shooting according to the jitter direction and displacement of first camera lens 312 Member 31 compensates when being shot, to effectively overcome the image blur generated by the vibration of first camera lens 312.

When the photosensitive value of the camera module 30 is less than first preset value, the image processing module 104 is controlled First camera unit 31 shoots the 4th image, and stores the 4th image to the storage unit 20.

In a second embodiment, when the photosensitive value of the camera module 30 is greater than or equal to first preset value When, the detection module 106 is used to detect the high dynamic illumination rendering (High-Dynamic of first camera unit 31 Range, HDR) whether function enable.

When the high dynamic illumination of first camera unit 31 rendering function enables, the opening module 105 opens institute The optical anti-vibration function of the first camera unit 31 is stated, the image processing module 104 controls first camera unit 31 and shoots 4th image, and the 4th image is stored to the storage unit 20.

When the high dynamic illumination of first camera unit 31 renders function not enabled, the image processing module 104 It controls first camera unit 31 and shoots the first image and second image respectively with second camera unit 32, Synthesizing the first image and second image becomes the third image, and it is single to the storage to store the third image Member 20.

In a third embodiment, when the photosensitive value of the camera module 30 is greater than or equal to first preset value When, whether the detection module 106 detects the flash lamp 40 in the open state.

When the flash lamp 40 is in the open state, the opening module 105 opens first camera unit 31 Optical anti-vibration function, the image processing module 104 controls first camera unit 31 and shoots the 4th image, and stores 4th image is to the storage unit 20.

When the flash lamp 40 is in close state, the image processing module 104 controls first camera unit 31 shoot the first image and second image with second camera unit 32 respectively, synthesize the first image and institute The second image is stated as the third image, and stores the third image to the storage unit 20.

In one the 4th embodiment, when the photosensitive value of the camera module 30 is greater than or equal to first preset value When, whether the high dynamic illumination rendering function that the detection module 106 is used to detect first camera unit 31 enables.

When the high dynamic illumination of first camera unit 31 renders function not enabled, the detection module 106 is detected Whether the flash lamp 40 is in the open state.

Further, the judgment module 103 is also used to judge whether the photosensitive value of the camera module 30 is greater than or waits In one second preset value, wherein second preset value is greater than first preset value.

In the present embodiment, second preset value is 1600.It is appreciated that in other embodiments, described the Two preset values may be set to be other any suitable numerical value.

When the photosensitive value of the camera module 30 is greater than or equal to second preset value, the detection module 106 is also Whether in the open state detect the flash lamp 40.

When the flash lamp 40 is in close state, the detection module 106 also detects first camera unit 31 High dynamic illumination rendering function whether enable.

It is the flow diagram of the camera shooting control method in better embodiment of the present invention also referring to Fig. 3-5.

Step S101 opens the camera module 30 of the electronic device 1.

Step S102, detects the camera parameter of first camera unit 31 and second camera unit 32, and by institute It is consistent with the camera parameter of first camera unit 31 that the camera parameter for stating the second camera unit 32, which synchronizes,.

Step S103 obtains the photosensitive value of the camera module 30.

Step S104, it is default whether the photosensitive value of the camera module 30 got described in judgement is greater than or equal to one first Value.When the photosensitive value of the camera module 30 got is less than first preset value, S105 is entered step；It is obtained when described When the photosensitive value for the camera module 30 got is greater than or equal to first preset value, S106 is entered step.

Step S105 opens the optical anti-vibration function of first camera unit 31, controls first camera unit 31 The 4th image is shot, and stores the 4th image to the storage unit 20.

Step S106, judges whether the photosensitive value of the camera module 30 is greater than or equal to one second preset value.When described When the photosensitive value of the camera module 30 got is less than second preset value, S107 is entered step；When it is described get take the photograph When being greater than or equal to second preset value as the photosensitive value of mould group 30, S112 is entered step.

Whether step S107, the high dynamic illumination rendering function of detecting first camera unit 31 enable.When described When the high dynamic illumination rendering function of one camera unit 31 enables, S108 is entered step；When the height of first camera unit 31 When dynamic illumination renders function not enabled, S109 is entered step.

Step S108 opens the optical anti-vibration function of first camera unit 31, controls first camera unit 31 The 4th image is shot, and stores the 4th image to the storage unit 20.

Whether in the open state step S109 detects the flash lamp 40.When the flash lamp 40 is in the open state, Enter step S108；When the flash lamp 40 is in close state, S110 is entered step.

Step S110 controls first camera unit 31 with second camera unit 32 and shoots first figure respectively Picture and second image.

Step S111, synthesizing the first image and second image becomes the third image, and stores described the Three images are to the storage unit 20.

Whether in the open state step S112 detects the flash lamp 40.When the flash lamp 40 is in the open state, Enter step S113；When the flash lamp 40 is in close state, S114 is entered step.

Step S113 opens the optical anti-vibration function of first camera unit 31, controls first camera unit 31 The 4th image is shot, and stores the 4th image to the storage unit 20.

Whether step S114, the high dynamic illumination rendering function of detecting first camera unit 31 enable.When described When the high dynamic illumination rendering function of one camera unit 31 enables, S113 is entered step；When the height of first camera unit 31 When dynamic illumination renders function not enabled, S115 is entered step.

Step S115 controls first camera unit 31 with second camera unit 32 and shoots first figure respectively Picture and second image.

Step S116, synthesizing the first image and second image becomes the third image, and stores described the Three images are to the storage unit 20.

Finally it should be noted that above embodiments are only to illustrate embodiment of the present invention rather than limit, although reference Preferred embodiment describes the invention in detail, those skilled in the art should understand that, it can be to of the invention Technical solution is modified or replaced equivalently, without departing from the spirit and scope of the technical solution of the present invention.

Claims

1. a kind of electronic device, including processor, camera module and storage unit, which is characterized in that the camera module includes First camera unit and the second camera unit, the processor include:

Judgment module, for judging whether the photosensitive value of the camera module got is greater than or equal to one first preset value； And

Image processing module, for controlling institute when the photosensitive value of the camera module is greater than or equal to first preset value State the first camera unit and second camera unit shoot the first image and the second image respectively, synthesis the first image and Second image becomes a third image, and stores the third image to the storage unit.

2. electronic device as described in claim 1, which is characterized in that the processor further include:

Detecting module, for detecting the camera parameter of first camera unit and second camera unit, and by described The synchronous camera parameter of two camera units is consistent with the camera parameter of first camera unit.

3. electronic device as described in claim 1, it is characterised in that: first camera unit includes colour image sensing Device, optical anti-vibration device and the first camera lens, for the optical anti-vibration device to provide optical anti-vibration function, second camera shooting is single Member includes black white image sensor and the second camera lens.

4. electronic device as claimed in claim 3, which is characterized in that the processor further include:

Opening module, for when the photosensitive value of the camera module is less than first preset value, opening first camera shooting The optical anti-vibration function of unit；And

The image processing module is also used to when the photosensitive value of the camera module is less than first preset value, described in control First camera unit shoots the 4th image, and stores the 4th image to the storage unit.

5. electronic device as claimed in claim 4, which is characterized in that the processor further include:

Detection module, for detecting described the when the photosensitive value of the camera module is greater than or equal to first preset value Whether the high dynamic illumination rendering function of one camera unit enables；

The opening module also when the high dynamic illumination of first camera unit rendering function enables, is opened described first and is taken the photograph As the optical anti-vibration function of unit；And

The image processing module is also when the high dynamic illumination of first camera unit renders function not enabled, described in control First camera unit and second camera unit shoot the first image and second image, synthesis described first respectively Image and second image become the third image, and store the third image to the storage unit.

6. electronic device as claimed in claim 4, which is characterized in that the electronic device further includes flash lamp, the processing Device further include:

Detection module, for detecting the sudden strain of a muscle when the photosensitive value of the camera module is greater than or equal to first preset value Whether light lamp is in the open state；

The opening module also when the flash lamp is in the open state, opens the optical anti-vibration function of first camera unit Energy；And

The image processing module controls first camera unit and described the also when the flash lamp is in close state Two camera units shoot the first image and second image respectively, synthesize the first image and second image at For the third image, and the third image is stored to the storage unit.

7. electronic device as claimed in claim 4, which is characterized in that the electronic device further includes flash lamp, the processing Device further include:

The opening module also when the high dynamic illumination of first camera unit rendering function enables, is opened described first and is taken the photograph As the optical anti-vibration function of unit；

The detection module also when the high dynamic illumination of first camera unit renders function not enabled, detects the flash of light Whether lamp is in the open state；

8. electronic device as claimed in claim 7, it is characterised in that:

The judgment module also judges whether the photosensitive value of the camera module is greater than or equal to one second preset value, wherein institute The second preset value is stated greater than first preset value；

The detection module also when the photosensitive value of the camera module is greater than or equal to second preset value, detects the sudden strain of a muscle Whether light lamp is in the open state；

The opening module also when the flash lamp is in the open state, opens the optical anti-vibration function of first camera unit Energy；

The detection module also when the flash lamp is in close state, detects the high dynamic illumination of first camera unit Whether rendering function enables；

9. a kind of camera shooting control method, it is applied in an electronic device, the electronic device includes camera module and storage unit, The camera module includes the first camera unit and the second camera unit, which is characterized in that be the described method comprises the following steps:

When the photosensitive value of the camera module is greater than or equal to first preset value, first camera unit and institute are controlled It states the second camera unit and shoots the first image and the second image respectively, synthesizing the first image and second image becomes one Third image, and the third image is stored to the storage unit.

10. camera shooting control method as claimed in claim 9, which is characterized in that the method also includes steps:

Detect the camera parameter of first camera unit and second camera unit, and taking the photograph second camera unit As parameter synchronization is consistent with the camera parameter of first camera unit.

11. camera shooting control method as claimed in claim 9, which is characterized in that the method also includes steps:

When the photosensitive value of the camera module is less than first preset value, the optical anti-vibration of first camera unit is opened Function controls first camera unit and shoots the 4th image, and stores the 4th image to the storage unit.

12. camera shooting control method as claimed in claim 9, which is characterized in that the method also includes following steps:

When the photosensitive value of the camera module is greater than or equal to first preset value, the height of first camera unit is detected Whether dynamic illumination rendering function enables；

When the high dynamic illumination of first camera unit rendering function enables, the optics for opening first camera unit is anti- Tremble function；And

When the high dynamic illumination of first camera unit renders function not enabled, control first camera unit with it is described Second camera unit shoots the first image and second image respectively, synthesizes the first image and second image As the third image, and the third image is stored to the storage unit.

13. camera shooting control method as claimed in claim 9, which is characterized in that the electronic device further includes flash lamp, described Method is further comprising the steps of:

When the photosensitive value of the camera module is greater than or equal to first preset value, detect whether the flash lamp is in out Open state；

When the flash lamp is in the open state, the optical anti-vibration function of first camera unit is opened；And

When the flash lamp is in close state, controls first camera unit and shot respectively with second camera unit The first image and second image, synthesizing the first image and second image becomes the third image, and The third image is stored to the storage unit.

14. camera shooting control method as claimed in claim 9, which is characterized in that the electronic device further includes flash lamp, described Method is further comprising the steps of:

When the high dynamic illumination of first camera unit rendering function enables, the optics for opening first camera unit is anti- Tremble function；

When the high dynamic illumination of first camera unit renders function not enabled, detect whether the flash lamp is in unlatching State；

15. camera shooting control method as claimed in claim 9, which is characterized in that the electronic device further includes flash lamp, described Method is further comprising the steps of:

Judge whether the photosensitive value of the camera module is greater than or equal to one second preset value, wherein second preset value is big In first preset value；

When the photosensitive value of the camera module is greater than or equal to second preset value, detect whether the flash lamp is in out Open state；

When the flash lamp is in the open state, the optical anti-vibration function of first camera unit is opened；

When the flash lamp is in close state, whether the high dynamic illumination rendering function of detecting first camera unit is opened With；