CN104660909A - Image acquisition method, image acquisition device and terminal - Google Patents

Abstract

The invention provides an image acquisition method, an image acquisition device and a terminal, wherein the image acquisition method comprises the following steps: setting the focusing distance of each camera in multiple cameras according to a first setting command received; acquiring shooting data related to a target object shot by each camera; and respectively setting a mark for shooting data shot by each camera according to a second setting command received so as to acquire the target image of the target object according to the mark in the shooting data shot by each camera and the shooting data shot by each camera. According to the technical scheme, multiple cameras are arranged on the terminal, so that the terminal has the function of adjusting the focusing distances in multiple ranges so as to increase the depths of field shot and improve the resolution of the shot image, and the terminal can shoot relatively far and clear images.

Description

Image acquiring method, image acquiring device and terminal

Technical field

The present invention relates to field of terminal technology, in particular to a kind of image acquiring method and a kind of image acquiring device and a kind of terminal.

Background technology

At present, due to terminal (as mobile phone, panel computer etc.) being provided with single camera, increasing user is taken pictures by the single camera in terminal, but single camera is when focusing, the focal length of a scope can only be regulated, to such an extent as to the photo of shooting can only be clearly in certain distance, the photo of shooting larger distance is fuzzy.

Therefore, how to make terminal have to regulate the focusing of multiple scope from function, thus improve the definition of the longer-distance photo of shooting, become problem demanding prompt solution.

Summary of the invention

The present invention is just based on the problems referred to above, propose a kind of new technical scheme, by arranging multiple camera in terminal, terminal is had regulate the focusing of multiple scope from function, thus increase the depth of field of the image photographed, improve the definition of photographic images, and make terminal can photograph farther image more clearly.

In view of this, an aspect of of the present present invention proposes a kind of image acquiring method, comprising: according to the first setting command received, the focusing that each camera in multiple camera is set from; Obtain the photographed data about destination object that described each camera photographs; According to the second setting command received, the photographed data be respectively captured by described each camera arranges mark, obtains the target image of described destination object with the mark in the photographed data captured by described each camera and the photographed data captured by described each camera.

In this technical scheme, because each camera in multiple camera is different from the how far of destination object, therefore, the focusing that each camera in multiple camera is set from, terminal is had regulate the focusing of multiple scope from function, thus increase the image depth photographed, improve the definition of photographic images, the photographed data about destination object not only making each camera photograph is more accurate, farther image more clearly can also be obtained, photosensitive processor again corresponding to each camera or image processor have the time delay of different time, therefore, photographed data captured by each camera arranges mark, thus make the target image of destination object more clear, such as, the focusing that each camera in multiple camera is set from time, according to the distance between multiple camera and destination object, repeatedly regulate the focusing of each camera from, thus ensure that the photographic images that each camera photographs is more clear, in addition, when photographed data captured by each camera arranges mark, by numeral, mark can be set to photographed data.

In technique scheme, preferably, the focusing of the described each camera arranged in multiple camera from, specifically comprise: according to the distance of each camera in described multiple camera and described destination object, for the arbitrary camera in described multiple camera arrange the first focusing from; According to described first focusing from be respectively other cameras each arrange the second focusing from, wherein, described other cameras each are the camera in described multiple camera except described arbitrary camera.

In this technical scheme, for arbitrary camera arrange the first focusing from, and according to the first focusing from be respectively other cameras each arrange the second focusing from, thus the photographed data about destination object making each camera photograph is more accurate, and then the depth of field of the image photographed can be increased, make the target image that gets more clear, such as, the first focusing arranging the arbitrary camera in multiple camera from being 10 centimetres, then arranging other cameras each and arranges the second focusing from being 15 centimetres.

In technique scheme, preferably, also comprise: according to the control command received, control the focus of described each camera on the same line.

In this technical scheme, control the focus of each camera on same straight line, the photographed data about destination object that each camera of such guarantee photographs is identical, that is the picture about destination object that each camera obtains is identical, thus ensure that the photographed data of the band reference object got is more accurate, and then make the target image after synthesis more clear.

In technique scheme, preferably, the described photographed data be respectively captured by described each camera arranges mark, the target image of described destination object is obtained with the mark in the photographed data captured by described each camera and the photographed data captured by described each camera, specifically comprise: according to the second setting command received, according to time sequencing for the photographed data of described each camera captured by different time arranges different labels, and guarantee that the captured at one time target photographed data of described multiple camera has identical label; The target photographed data of the described identical label obtained by described multiple camera synthesizes, to obtain described target image.

In this technical scheme, when each camera takes the photographed data about destination object, photosensitive processor corresponding to each camera or image processor have the time delay of different time, so the time of photographed data captured by each camera may be different, if directly according to the photographed data synthesis target image that each camera photographs, target image can be made like this to occur that picture is inconsistent, therefore, the pixel value of each pixel in the target photographed data of each obtained at one time for each camera frame is weighted, wherein, target photographed data has identical label, thus obtain the larger target image of the depth of field, and then make target image more clear, in addition, when arranging different labels for each camera at the photographed data captured by different time according to time sequencing, the time interval can be arranged by user, also can be system default, and the starting point of time can be the time of each camera when taking.

In technique scheme, preferably, according to the adjustment order received, the focusing adjusting each camera in multiple camera from.

In this technical scheme, due to terminal obtain the target image of destination object at every turn time, each camera is different from the distance of destination object, so the focusing readjusting each camera from, the photographed data about destination object that each camera is photographed is more accurate, thus makes the target image of the destination object got each time all very clear.

Another aspect of the present invention proposes a kind of image acquiring device, comprising: the first setting unit, according to the first setting command received, the focusing that each camera in multiple camera is set from; Acquiring unit, obtains the photographed data about destination object that described each camera photographs; Second setting unit, according to the second setting command received, the photographed data be respectively captured by described each camera arranges mark, obtains the target image of described destination object with the mark in the photographed data captured by described each camera and the photographed data captured by described each camera.

In this technical scheme, because each camera in multiple camera is different from the how far of destination object, therefore, the focusing that each camera in multiple camera is set from, terminal is had regulate the focusing of multiple scope from function, thus increase the image depth photographed, improve the definition of photographic images, the photographed data about destination object not only making each camera photograph is more accurate, farther image more clearly can also be obtained, photosensitive processor again corresponding to each camera or image processor have the time delay of different time, therefore, photographed data captured by each camera arranges mark, thus make the target image of destination object more clear, such as, the focusing that each camera in multiple camera is set from time, according to the distance between multiple camera and destination object, repeatedly regulate the focusing of each camera from, thus ensure that the photographic images that each camera photographs is more clear, in addition, when photographed data captured by each camera arranges mark, by numeral, mark can be set to photographed data.

In technique scheme, preferably, described first setting unit specifically for: according to the distance of each camera in described multiple camera and described destination object, for the arbitrary camera in described multiple camera arrange the first focusing from; According to described first focusing from be respectively other cameras each arrange the second focusing from, wherein, described other cameras each are the camera in described multiple camera except described arbitrary camera.

In this technical scheme, for arbitrary camera arrange the first focusing from, and according to the first focusing from be respectively other cameras each arrange the second focusing from, thus the photographed data about destination object making each camera photograph is more accurate, and then the depth of field of the image photographed can be increased, make the target image that gets more clear, such as, the first focusing arranging the arbitrary camera in multiple camera from being 10 centimetres, then arranging other cameras each and arranges the second focusing from being 15 centimetres.

In technique scheme, preferably, also comprise: control unit, according to the control command received, control the focus of described each camera on the same line.

In this technical scheme, control the focus of each camera on same straight line, the photographed data about destination object that each camera of such guarantee photographs is identical, that is the picture about destination object that each camera obtains is identical, thus ensure that the photographed data of the band reference object got is more accurate, and then make the target image after synthesis more clear.

In technique scheme, preferably, second setting unit specifically for: according to the second setting command received, according to time sequencing for the photographed data of described each camera captured by different time arranges different labels, and guarantee that the captured at one time target photographed data of described multiple camera has identical label; The target photographed data of the described identical label obtained by described multiple camera synthesizes, to obtain described target image.

In this technical scheme, when each camera takes the photographed data about destination object, photosensitive processor corresponding to each camera or image processor have the time delay of different time, so the time of photographed data captured by each camera may be different, if directly according to the photographed data synthesis target image that each camera photographs, target image can be made like this to occur that picture is inconsistent, therefore, the pixel value of each pixel in the target photographed data of each obtained at one time for each camera frame is weighted, wherein, target photographed data has identical label, thus obtain the larger target image of the depth of field, and then make target image more clear, in addition, when arranging different labels for each camera at the photographed data captured by different time according to time sequencing, the time interval can be arranged by user, also can be system default, and the starting point of time can be the time of each camera when taking.

In technique scheme, preferably, adjustment unit, according to the adjustment order received, the focusing adjusting each camera in multiple camera from.

In this technical scheme, due to terminal obtain the target image of destination object at every turn time, each camera is different from the distance of destination object, so the focusing readjusting each camera from, the photographed data about destination object that each camera is photographed is more accurate, thus makes the target image of the destination object got each time all very clear.

Another aspect of the present invention proposes a kind of terminal, comprising: the image acquiring device as described in above-mentioned any one technical scheme.

In this technical scheme, because each camera in multiple camera is different from the how far of destination object, the focusing that each camera in each camera is set from, terminal is had regulate the focusing of multiple scope from function, thus the photographed data about destination object not only making each camera photograph is more accurate, farther image more clearly can also be obtained, photosensitive processor again corresponding to each camera or image processor have the time delay of different time, the time of the photographed data namely captured by each camera may be different, therefore, after the photographed data about destination object that each camera of acquisition photographs, according to the photographed data of time sequencing captured by each camera, multiple mark is set, the photographed data with same tag is synthesized, thus make the photographed data of each camera in the target image of synthesis be synchronous, target image is avoided to occur fuzzy, make target image more clear.

By technical scheme of the present invention, by arranging multiple camera in terminal, terminal is had regulate the focusing of multiple scope from function, thus increase the depth of field of the image photographed, improve the definition of photographic images, and make terminal can photograph farther image more clearly.

Accompanying drawing explanation

Fig. 1 shows the schematic flow sheet of image acquiring method according to an embodiment of the invention;

Fig. 2 shows the structural representation of image acquiring device according to an embodiment of the invention;

Fig. 3 shows the principle schematic of image acquiring device according to another embodiment of the invention;

Fig. 4 shows the theory structure schematic diagram of mark photographed data according to an embodiment of the invention;

Fig. 5 shows the structural representation of terminal according to an embodiment of the invention.

Embodiment

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

Set forth a lot of detail in the following description so that fully understand the present invention; but; the present invention can also adopt other to be different from other modes described here and implement, and therefore, protection scope of the present invention is not by the restriction of following public specific embodiment.

Fig. 1 shows the schematic flow sheet of image acquiring method according to an embodiment of the invention.

As shown in Figure 1, image acquiring method according to an embodiment of the invention, comprising:

Step 102, according to the first setting command received, the focusing that each camera in multiple camera is set from;

Step 104, obtains the photographed data about destination object that described each camera photographs;

Step 106, according to the second setting command received, the photographed data be respectively captured by described each camera arranges mark, obtains the target image of described destination object with the mark in the photographed data captured by described each camera and the photographed data captured by described each camera.

In this technical scheme, because each camera in multiple camera is different from the how far of destination object, therefore, the focusing that each camera in multiple camera is set from, terminal is had regulate the focusing of multiple scope from function, thus increase the image depth photographed, improve the definition of photographic images, the photographed data about destination object not only making each camera photograph is more accurate, farther image more clearly can also be obtained, photosensitive processor again corresponding to each camera or image processor have the time delay of different time, therefore, photographed data captured by each camera arranges mark, thus make the target image of destination object more clear, such as, the focusing that each camera in multiple camera is set from time, according to the distance between multiple camera and destination object, repeatedly regulate the focusing of each camera from, thus ensure that the photographic images that each camera photographs is more clear, in addition, when photographed data captured by each camera arranges mark, by numeral, mark can be set to photographed data.

In technique scheme, preferably, the focusing of the described each camera arranged in multiple camera from, specifically comprise: according to the distance of each camera in described multiple camera and described destination object, for the arbitrary camera in described multiple camera arrange the first focusing from; According to described first focusing from be respectively other cameras each arrange the second focusing from, wherein, described other cameras each are the camera in described multiple camera except described arbitrary camera.

In this technical scheme, for arbitrary camera arrange the first focusing from, and according to the first focusing from be respectively other cameras each arrange the second focusing from, thus the photographed data about destination object making each camera photograph is more accurate, and then the depth of field of the image photographed can be increased, make the target image that gets more clear, such as, the first focusing arranging the arbitrary camera in multiple camera from being 10 centimetres, then arranging other cameras each and arranges the second focusing from being 15 centimetres.

In technique scheme, preferably, also comprise: according to the control command received, control the focus of described each camera on the same line.

In this technical scheme, control the focus of each camera on same straight line, the photographed data about destination object that each camera of such guarantee photographs is identical, that is the picture about destination object that each camera obtains is identical, thus ensure that the photographed data of the band reference object got is more accurate, and then make the target image after synthesis more clear.

In technique scheme, preferably, the described photographed data be respectively captured by described each camera arranges mark, the target image of described destination object is obtained with the mark in the photographed data captured by described each camera and the photographed data captured by described each camera, specifically comprise: according to the second setting command received, according to time sequencing for the photographed data of described each camera captured by different time arranges different labels, and guarantee that the captured at one time target photographed data of described multiple camera has identical label; The target photographed data of the described identical label obtained by described multiple camera synthesizes, to obtain described target image.

In this technical scheme, when each camera takes the photographed data about destination object, photosensitive processor corresponding to each camera or image processor have the time delay of different time, so the time of photographed data captured by each camera may be different, if directly according to the photographed data synthesis target image that each camera photographs, target image can be made like this to occur that picture is inconsistent, therefore, the pixel value of each pixel in the target photographed data of each obtained at one time for each camera frame is weighted, wherein, target photographed data has identical label, thus obtain the larger target image of the depth of field, and then make target image more clear, in addition, when arranging different labels for each camera at the photographed data captured by different time according to time sequencing, the time interval can be arranged by user, also can be system default, and the starting point of time can be the time of each camera when taking.

In technique scheme, preferably, according to the adjustment order received, the focusing adjusting each camera in multiple camera from.

In this technical scheme, due to terminal obtain the target image of destination object at every turn time, each camera is different from the distance of destination object, so the focusing readjusting each camera from, the photographed data about destination object that each camera is photographed is more accurate, thus makes the target image of the destination object got each time all very clear.

Fig. 2 shows the structural representation of image acquiring device according to an embodiment of the invention.

As shown in Figure 2, image acquiring device 200 according to an embodiment of the invention, comprise: the first setting unit 202, acquiring unit 204 and the second setting unit 206, wherein, described first setting unit 202 for according to the first setting command of receiving, the focusing that each camera in multiple camera is set from; Acquiring unit 204, obtains the photographed data about destination object that described each camera photographs; Second setting unit 206, according to the second setting command received, the photographed data be respectively captured by described each camera arranges mark, obtains the target image of described destination object with the mark in the photographed data captured by described each camera and the photographed data captured by described each camera.

In this technical scheme, because each camera in multiple camera is different from the how far of destination object, therefore, the focusing that each camera in multiple camera is set from, terminal is had regulate the focusing of multiple scope from function, thus increase the image depth photographed, improve the definition of photographic images, the photographed data about destination object not only making each camera photograph is more accurate, farther image more clearly can also be obtained, photosensitive processor again corresponding to each camera or image processor have the time delay of different time, therefore, photographed data captured by each camera arranges mark, thus make the target image of destination object more clear, such as, the focusing that each camera in multiple camera is set from time, according to the distance between multiple camera and destination object, repeatedly regulate the focusing of each camera from, thus ensure that the photographic images that each camera photographs is more clear, in addition, when photographed data captured by each camera arranges mark, by numeral, mark can be set to photographed data.

In technique scheme, preferably, described first setting unit 202 specifically for: according to the distance of each camera in described multiple camera and described destination object, for the arbitrary camera in described multiple camera arrange the first focusing from; According to described first focusing from be respectively other cameras each arrange the second focusing from, wherein, described other cameras each are the camera in described multiple camera except described arbitrary camera.

In this technical scheme, for arbitrary camera arrange the first focusing from, and according to the first focusing from be respectively other cameras each arrange the second focusing from, thus the photographed data about destination object making each camera photograph is more accurate, and then the depth of field of the image photographed can be increased, make the target image that gets more clear, such as, the first focusing arranging the arbitrary camera in multiple camera from being 10 centimetres, then arranging other cameras each and arranges the second focusing from being 15 centimetres.

In technique scheme, preferably, also comprise: control unit 208, according to the control command received, control the focus of described each camera on the same line.

In this technical scheme, control the focus of each camera on same straight line, the photographed data about destination object that each camera of such guarantee photographs is identical, that is the picture about destination object that each camera obtains is identical, thus ensure that the photographed data of the band reference object got is more accurate, and then make the target image after synthesis more clear.

In technique scheme, preferably, second setting unit 206 specifically for: according to the second setting command received, according to time sequencing for the photographed data of described each camera captured by different time arranges different labels, and guarantee that the captured at one time target photographed data of described multiple camera has identical label; The target photographed data of the described identical label obtained by described multiple camera synthesizes, to obtain described target image.

In this technical scheme, when each camera takes the photographed data about destination object, photosensitive processor corresponding to each camera or image processor have the time delay of different time, so the time of photographed data captured by each camera may be different, if directly according to the photographed data synthesis target image that each camera photographs, target image can be made like this to occur that picture is inconsistent, therefore, the pixel value of each pixel in the target photographed data of each obtained at one time for each camera frame is weighted, wherein, target photographed data has identical label, thus obtain the larger target image of the depth of field, and then make target image more clear, in addition, when arranging different labels for each camera at the photographed data captured by different time according to time sequencing, the time interval can be arranged by user, also can be system default, and the starting point of time can be the time of each camera when taking.

In technique scheme, preferably, adjustment unit 210, according to the adjustment order received, the focusing adjusting each camera in multiple camera from.

In this technical scheme, due to terminal obtain the target image of destination object at every turn time, each camera is different from the distance of destination object, so the focusing readjusting each camera from, the photographed data about destination object that each camera is photographed is more accurate, thus makes the target image of the destination object got each time all very clear.

Fig. 3 shows the principle schematic of image acquiring device according to another embodiment of the invention.

As shown in Figure 3, the principle (in this embodiment, terminal is mobile phone, and mobile phone is provided with dual camera, i.e. camera A and camera B) of image acquiring device 300 according to another embodiment of the invention, comprising:

1. master control ISP (Image Signal Processor, image processor) controls camera A focusing A and focuses, and also controls camera B focusing B simultaneously and focuses.

2. obtain the frame data about destination object (photographed data) that camera A and camera B photographs.

3. the frame data captured by camera A and camera B carry out marking (photographed data captured by each camera arranges mark).

4. master control ISP obtains the frame data of identical mark, and is carried out by the frame data with identical mark synthesizing (being synthesized by the target photographed data of the identical label corresponding to multiple camera successively), thus obtains target image.

Fig. 4 shows the theory structure schematic diagram of mark photographed data according to an embodiment of the invention.

As shown in Figure 4, mark photographed data according to an embodiment of the invention, when each camera takes frame data (photographed data) about destination object, photosensitive processor corresponding to each camera or image processor have the time delay of different time, so the time of frame data captured by each camera may be different, if directly according to the frame data synthesis target image that each camera photographs, target image can be made like this to occur that picture is inconsistent.

Therefore, the frame data of each camera captured by different time can be followed successively by according to time sequencing and different labels is set, and the target frame data captured by the same time have identical label, then successively the target photographed data of the identical label corresponding to multiple camera is synthesized, thus the frame data about destination object making each camera photograph can be synchronous, the target image of the destination object then got is more accurate, thus makes target image more clear.

Such as, mark the frame data of camera A, the first frame data ID:A_id1, the second frame data ID:A_id2, the 3rd frame data ID:A_id3 etc., the mark of other frame data of camera A by that analogy; The frame data of camera B are marked, the first frame data ID:A_id1, the second frame data ID:A_id2,3rd frame data ID:A_id3 etc., by that analogy, wherein, the driving layer of camera completes the ID mark of frame data to the mark of other frame data of camera B.Primary isp, when synthesizing target image, is extracted in buffer memory the frame data with identical No. ID, thus is reached the synchronous of the frame data of different camera, makes the target image of synthesis more accurately with clear.Such as, extract the second frame data A_id2 of camera A, detect the frame data ID in camera B buffer memory, until obtain the frame data of B_id2, just perform the synthesis of frame data.

Fig. 5 shows the structural representation of terminal according to an embodiment of the invention.

As shown in Figure 5, terminal 500 according to an embodiment of the invention, comprises the image acquiring device 200 described in above-mentioned any one technical scheme.

In this technical scheme, because each camera in multiple camera is different from the how far of destination object, the focusing that each camera in each camera is set from, terminal is had regulate the focusing of multiple scope from function, the photographed data about destination object not only making each camera photograph is more accurate, farther image more clearly can also be obtained, photosensitive processor again corresponding to each camera or image processor have the time delay of different time, the time of the photographed data namely captured by each camera may be different, therefore, after the photographed data about destination object that each camera of acquisition photographs, according to the photographed data of time sequencing captured by each camera, multiple mark is set, the photographed data with same tag is synthesized, thus make the photographed data of each camera in the target image of synthesis be synchronous, target image is avoided to occur fuzzy, make target image more clear.

More than be described with reference to the accompanying drawings technical scheme of the present invention, by arranging multiple camera in terminal, terminal is had regulate the focusing of multiple scope from function, thus increase the depth of field of the image photographed, improve the definition of photographic images, and make terminal can photograph farther image more clearly.

In the present invention, term " first ", " second " object only for describing, and instruction or hint relative importance can not be interpreted as; Term " multiple " represents two or more.For the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can be understood as the case may be.

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

Claims (11)

1. an image acquiring method, is characterized in that, comprising:

According to the first setting command received, the focusing that each camera in multiple camera is set from;

Obtain the photographed data about destination object that described each camera photographs;

According to the second setting command received, the photographed data be respectively captured by described each camera arranges mark, obtains the target image of described destination object with the mark in the photographed data captured by described each camera and the photographed data captured by described each camera.

2. image acquiring method according to claim 1, is characterized in that,

The focusing of the described each camera arranged in multiple camera from, specifically comprise:

According to the distance of each camera in described multiple camera and described destination object, for the arbitrary camera in described multiple camera arrange the first focusing from;

According to described first focusing from be respectively other cameras each arrange the second focusing from, wherein, described other cameras each are the camera in described multiple camera except described arbitrary camera.

3. image acquiring method according to claim 1, is characterized in that, also comprises:

According to the control command received, control the focus of described each camera on the same line.

4. image acquiring method according to claim 1, is characterized in that,

The described photographed data be respectively captured by described each camera arranges mark, obtain the target image of described destination object with the mark in the photographed data captured by described each camera and the photographed data captured by described each camera, specifically comprise:

According to the second setting command received, according to time sequencing for the photographed data of described each camera captured by different time arranges different labels, and guarantee that the captured at one time target photographed data of described multiple camera has identical label;

The target photographed data of the described identical label obtained by described multiple camera synthesizes, to obtain described target image.

5. image acquiring method according to any one of claim 1 to 4, is characterized in that,

According to the adjustment order received, the focusing adjusting each camera in multiple camera from.

6. an image acquiring device, is characterized in that, comprising:

First setting unit, according to the first setting command received, the focusing that each camera in multiple camera is set from;

Acquiring unit, obtains the photographed data about destination object that described each camera photographs;

Second setting unit, according to the second setting command received, the photographed data be respectively captured by described each camera arranges mark, obtains the target image of described destination object with the mark in the photographed data captured by described each camera and the photographed data captured by described each camera.

7. image acquiring device according to claim 6, is characterized in that,

Described first setting unit specifically for:

According to the distance of each camera in described multiple camera and described destination object, for the arbitrary camera in described multiple camera arrange the first focusing from;

According to described first focusing from be respectively other cameras each arrange the second focusing from, wherein, described other cameras each are the camera in described multiple camera except described arbitrary camera.

8. image acquiring device according to claim 6, is characterized in that, also comprises:

Control unit, according to the control command received, controls the focus of described each camera on the same line.

9. image acquiring device according to claim 6, is characterized in that,

Second setting unit specifically for:

According to the second setting command received, according to time sequencing for the photographed data of described each camera captured by different time arranges different labels, and guarantee that the captured at one time target photographed data of described multiple camera has identical label;

The target photographed data of the described identical label obtained by described multiple camera synthesizes, to obtain described target image.

10. the image acquiring device according to any one of claim 6 to 9, is characterized in that,

Adjustment unit, according to the adjustment order received, the focusing adjusting each camera in multiple camera from.

11. 1 kinds of terminals, is characterized in that, comprising: the image acquiring device according to any one of claim 6 to 10.