CN103731605A

CN103731605A - Photographing method and terminal

Info

Publication number: CN103731605A
Application number: CN201310689561.2A
Authority: CN
Inventors: 陈一槐
Original assignee: Yulong Computer Telecommunication Scientific Shenzhen Co Ltd
Current assignee: Yulong Computer Telecommunication Scientific Shenzhen Co Ltd
Priority date: 2013-12-16
Filing date: 2013-12-16
Publication date: 2014-04-16
Anticipated expiration: 2033-12-16
Also published as: CN103731605B

Abstract

The invention discloses a photographing method and terminal, and relates to the field of intelligent terminals. The photographing method and terminal are used for solving the problem that in the prior art, when panoramic photography is conducted, sceneries in spliced panoramic pictures are dislocated. The photographing method includes the steps that panoramic photography is started, sceneries in a viewing frame of a camera are photographed, and then a first picture is acquired; the camera is moved, the first picture slides in the viewing frame of the camera, and view finding and photographing are conducted with the end point boundary of the first picture as an axis of symmetry, and then a second picture is acquired; when the end point boundary of the first picture coincides with the starting point boundary of the viewing frame of the camera, the sceneries in the viewing frame are photographed, and then a third picture is acquired; the second picture covers the position between the first picture and the third picture, the first picture and the third picture are spliced, and then a panoramic picture which includes the first picture and the third picture is acquired. The photographing method and terminal are suitable for the field of the intelligent terminals and used for conducting panoramic photography.

Description

Photographic method and terminal

Technical field

The present invention relates to intelligent terminal field, relate in particular to a kind of photographic method and terminal.

Background technology

Along with the development of smart mobile phone, camera function almost becomes the necessary functions of the terminal equipments such as smart mobile phone.User, in the process of taking pictures by terminal, often need to take the wider photo in some visual angles (for example picture with scenes), so current terminal has generally all configured pan-shot function.Pan-shot technology, exactly along with plurality of pictures is taken in the movement of camera lens successively, and is combined into a Zhang Quanjing picture by the multiple pictures of shooting.Its basic shooting principle is the marginal portion of adjacent two pictures of search, and the region that imaging effect is approached the most overlapped, thereby plurality of pictures is spliced into a Zhang Quanjing picture.

Realizing in process of the present invention, inventor finds that in prior art, at least there are the following problems:

In the process of terminal lens moving, camera lens can be shaken; In the situation that camera lens is shaken, the marginal portion difference of adjacent two photos of terminal taking is larger, make terminal when adjacent two photos are spliced, cannot find the approaching region of imaging effect, the panoramic pictures generation scenery dislocation that causes being spliced into.

Summary of the invention

Embodiments of the invention provide a kind of photographic method and terminal, can solve in prior art carrying out panorama while taking pictures, the problem of the panoramic pictures generation scenery dislocation being spliced into.

For achieving the above object, embodiments of the invention adopt following technical scheme:

On the one hand, the embodiment of the present invention provides a kind of photographic method, and described method comprises:

Start pan-shot, the scenery in camera view-finder is taken pictures, obtain photo 1;

Dollying head, described photo 1 slides in the view-finder of described camera, take the terminal border of described photo 1, as symmetry axis, finds a view and takes pictures, and obtains photo 2;

When the terminal border of described photo 1 and the starting point border of described camera view-finder overlap, the scenery in view-finder is taken pictures, obtain photo 3;

Described photo 2 is covered between described photo 1 and photo 3, described photo 1 and photo 3 are spliced, obtain comprising the distant view photograph of described photo 1 and photo 3; Wherein, the center line of described photo 2 overlaps with the junction of described photo 1 and photo 3.

On the other hand, the embodiment of the present invention also provides a kind of terminal, and described terminal comprises:

The unit of taking pictures, for starting pan-shot, takes pictures to the scenery in camera view-finder, obtains photo 1;

Described take pictures unit also for, when camera moves, when described photo 1 slides in the view-finder of described camera, take the terminal border of described photo 1, as symmetry axis, find a view and take pictures, obtain photo 2;

, also for when the terminal border of described photo 1 and the starting point border of described camera view-finder overlap, taking pictures to the scenery in view-finder in the described unit of taking pictures, obtains photo 3;

Concatenation unit, for described photo 2 is covered between described photo 1 and photo 3, splices described photo 1 and photo 3, obtains comprising the distant view photograph of described photo 1 and photo 3; Wherein, the center line of described photo 2 overlaps with the junction of described photo 1 and photo 3.

The photographic method that the embodiment of the present invention provides and terminal, along with the movement of camera, terminal is taken pictures successively and is obtained photo 1, photo 2, photo 3, wherein, the scenery comprising in photo 1 and photo 3 is continuous, between photo 1 and photo 2 and photo 2 and photo 3, all comprises overlapping scenery; Photo 2 is covered between photo 1 and photo 3, photo 1 and photo 3 are spliced with photo 2.Compared with prior art, the method that adopts the present embodiment to provide, owing to directly adopting photo 2 to cover between photo 1 and photo 3, the splicing part between photo 1 and photo 3 is substituted by photo 2, can avoid the scenery between photo 1 and photo 3 to occur the problem misplacing.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The schematic flow sheet of the photographic method that Fig. 1 provides for the embodiment of the present invention one;

The schematic flow sheet of the photographic method that Fig. 2 provides for the embodiment of the present invention two;

The photomosaic method schematic diagram that Fig. 3 provides for the embodiment of the present invention two;

The terminal structure block diagram that Fig. 4 provides for the embodiment of the present invention three;

The terminal structure block diagram that Fig. 5 provides for the embodiment of the present invention three.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, rather than whole embodiment.Based on the embodiment in the present invention, those of ordinary skills, not making the every other embodiment obtaining under creative work prerequisite, belong to the scope of protection of the invention.

Embodiment mono-

The embodiment of the present invention provides a kind of photographic method, and as shown in Figure 1, the method that the present embodiment provides comprises:

101, terminal starts pan-shot, and the scenery in camera view-finder is taken pictures, and obtains photo 1.

102, dollying head, described photo 1 slides in the view-finder of described camera; Described terminal is found a view and is taken pictures as symmetry axis take the terminal border of described photo 1, obtains photo 2.

103, when the terminal border of described photo 1 and the starting point border of described camera view-finder overlap, described terminal is taken pictures to the scenery in view-finder, obtains photo 3.

By above-mentioned steps, 102-103 is known, the scenery in photo 1 and photo 3 be continuous, not do not overlap.Taking pictures 2 o'clock, do not need all scenery in camera view-finder to take pictures, but take the intersection of photo 1 and photo 3 as center line, take pictures for the length of finding a view with preset length, that is to say, photo 2 all has intersection with scenery, photo 2 in photo 1 with the scenery in photo 3, and the size of intersection is identical.

104, described terminal covers described photo 2 between described photo 1 and photo 3, and described photo 1 and photo 3 are spliced, and obtains comprising the distant view photograph of described photo 1 and photo 3; Wherein, the center line of described photo 2 overlaps with the junction of described photo 1 and photo 3.

Unlike the prior art, adopt the step 104 in the present embodiment, be not in photo 1 and photo 3, to find the splicing that overlapped of region that imaging effect approaches the most, but picture 2 is covered between photo 1 and photo 3, that is to say, between photo 1 and photo 3, by picture 2, carry out transition, so can avoid the intersection of picture 1 and picture 3 to occur the defect of scenery dislocation.

What deserves to be explained is, the present embodiment describes as an example of three photos example; Wherein, be mainly that photo 1 and photo 3 are spliced into distant view photograph, the content of photo 2 has been included in photo 1 and photo 3, and photo 2 is mainly used for comparison film 1 and photo 3 splices, to reach good splicing effect.In practical application, the number of photo is not limited to this.For example, terminal can also be taken pictures and be obtained photo 4 and photo 5, and the criterion of taking pictures of photo 4 is identical with photo 2, then adopts photo 4 that photo 3 and photo 5 are spliced, specific implementation process, referring to the splicing of photo in the present embodiment 1 and photo 3, repeats no more herein.

The photographic method that the embodiment of the present invention provides, along with the movement of camera, terminal is taken pictures successively and is obtained photo 1, photo 2, photo 3, wherein, the scenery comprising in photo 1 and photo 3 is continuous, between photo 1 and photo 2 and photo 2 and photo 3, all comprises overlapping scenery; Photo 2 is covered between photo 1 and photo 3, photo 1 and photo 3 are spliced with photo 2.Compared with prior art, the method that adopts the present embodiment to provide, owing to directly adopting photo 2 to cover between photo 1 and photo 3, the splicing part between photo 1 and photo 3 is substituted by photo 2, can avoid the scenery between photo 1 and photo 3 to occur the problem misplacing.

Embodiment bis-

On basis embodiment illustrated in fig. 1, further, the present embodiment provides a kind of photographic method, as shown in Figure 2, comprising:

201, terminal starts pan-shot, and the scenery in camera view-finder is taken pictures, and obtains photo 1.

202, dollying head, described photo 1 slides in the view-finder of described camera; When the distance between the terminal border of described photo 1 and the starting point border of described camera view-finder is reduced to X, take the terminal border of described photo 1 as symmetry axis, find a view and take pictures for the length of taking pictures with 2X, obtain photo 2 in view-finder; Wherein, the value of described X is less than or equal to 1/2nd of view-finder length.

Concrete, X can be set as to a certain fixed numbers, also X can be set as to a certain referential data.For example, X can be set as to 5CM, or X can be set as to 1/5 of photo 1 length.Take X value as 5CM, be example, along with the movement of camera, the scenery in photo 1 shifts out camera viewfinder range gradually; When the remaining partial-length of photo 1 in camera view-finder is 5CM, described terminal take the terminal border of described photo 1 as center line, take pictures as viewfinder range take 10CM length, obtains photo 2.

203, when the terminal border of described photo 1 and the starting point border of described camera view-finder overlap, the scenery in view-finder is taken pictures, obtain photo 3.

In the present embodiment, the length of photo 1 and photo 3 is identical, and the length of photo 2 is less than or equal to the length of photo 1 or photo 3.With examples cited in step 202, the length of photo 2 is 10CM, and wherein, the scenery of 5CM overlaps with photo 1, and the scenery in remaining 5CM overlaps with photo 3.

204, described terminal is on average divided into 2N+1 part region along the moving direction of described camera by described photo 2, and N+1 part region is covered between described photo 1 and photo 3, and described photo 1 and photo 3 are spliced.

205, described terminal is spliced photo 1 and photo 2, and photo 2 and photo 3 are spliced, and obtains the panoramic pictures of photo 1 and photo 3.

Concrete, the present embodiment provides two kinds of specific implementations of step 205:

Mode one:

S1, described terminal detect the degree of coupling of the pixel in described photo 1 and described photo 2, using the region the highest degree of coupling as splicing regions, described photo 1 and photo 2 are spliced;

Concrete, described terminal detects the 1st part of pixel degree of coupling to N part region in photo 1 and photo 2, determines splicing regions.

S2, detect the degree of coupling of the pixel in described photo 2 and described photo 3, using the region the highest degree of coupling as splicing regions, described photo 2 and photo 3 are spliced.

Concrete, described terminal detects the pixel degree of coupling in N+2 part to the 2N+1 part region in photo 3 and photo 2, determines splicing regions.

What deserves to be explained is, by above-mentioned S1-S2, owing to being that intersection from photo 1 and photo 2 is determined splicing regions, so the degree of coupling in amalgamation region can be guaranteed fully.Compared with the implementation of splicing with the marginal portion of searching for adjacent two pictures in prior art, the splicing effect of the present embodiment can been significantly enhanced.In like manner, the splicing effect of photo 2 and photo 3 also can been significantly enhanced.

Mode two:

S1, according to the division specification of described photo 2, will in described photo 1, be divided into N part region with the intersection of described photo 2, and compare successively the pixel degree of coupling in the N part region in N part region and the described photo 2 in described photo 1, using the region the highest degree of coupling or the degree of coupling region that reaches predetermined threshold value as splicing regions, described photo 1 and photo 2 are spliced;

S2, according to the division specification of described photo 2, will in described photo 3, be divided into N part region with the intersection of described photo 2, and compare successively the pixel degree of coupling in the N part region in N part region and the described photo 2 in described photo 3, using the region the highest degree of coupling or the degree of coupling region that reaches predetermined threshold value as splicing regions, described photo 3 and photo 2 are spliced.

By above-mentioned S1-S2, by by photo 1(photo 3) divide with the intersection of photo 2, and compare one by one the pixel degree of coupling in every a region.Adopt in such a way, be convenient to terminal definite splicing regions faster, comparison film 1(photo 3) and photo 2 splice.

Concrete, for the ease of understanding, in conjunction with concrete application scenarios to the photo 1 in the present embodiment, photo 2, photo 3 take pictures and photo between splicing be illustrated.As shown in Figure 3,3 triangles in figure are object scene that (being triangle A, triangle B and triangle C) need to carry out pan-shot.Along the moving direction of camera, photo 1 comprises the first half of triangle A and triangle B; Photo 2 comprises triangle B, and photo 3 comprises later half and the triangle C of triangle B.As shown in Figure 3, terminal is on average divided into five equal portions by photo 2, and 21 in figure is the first equal portions, and 22 is the second equal portions, and 23 is C grade part, and 24 is quarter, and 25 is the 5th equal portions.When comparison film 1 and photo 3 splice, C grade part 23 is covered between photo 1 and photo 3, replace the respective regions in photo 1 and photo 3; When comparison film 1 and photo 2 splice, in the region of the first equal portions 21 and the second equal portions 22, detect the pixel degree of coupling of photo 1 and photo 2, select the higher region of the degree of coupling to splice as splicing regions comparison film 1 and photo 2.In order to ensure the quality of photomosaic, the region between splicing regions adopts the content of photo 1, and the region after splicing regions adopts the content of photo 2, and splicing regions itself adopts the content of photo 1 or photo 2 all can.

What deserves to be explained is, the umber that photo 2 is divided is more, and splicing effect is better.In practical application, the division umber of photo 2 can be set according to user's request by terminal.

The photographic method that adopts the embodiment of the present invention to provide, compared with prior art, owing to directly adopting the zone line of photo 2 to cover between photo 1 and photo 3, splicing part between photo 1 and photo 3 is substituted by photo 2, can avoid the scenery between photo 1 and photo 3 to occur the problem misplacing; Simultaneously, at comparison film 1(or photo 3) and photo 2 process of splicing in, from photo 1(or photo 3) and the intersection of photo 2 determine splicing regions, so the degree of coupling in amalgamation region can be guaranteed fully, splicing effect can been significantly enhanced.

Embodiment tri-

The embodiment of the present invention further provides a kind of terminal, can realize the embodiment of the method shown in above-mentioned Fig. 1 and Fig. 2.As shown in Figure 4, the terminal 40 that the present embodiment provides comprises:

The unit 41 of taking pictures, for starting pan-shot, takes pictures to the scenery in camera view-finder, obtains photo 1;

Described take pictures unit 41 also for, when camera moves, when described photo 1 slides in the view-finder of described camera, take the terminal border of described photo 1, as symmetry axis, find a view and take pictures, obtain photo 2;

, also for when the terminal border of described photo 1 and the starting point border of described camera view-finder overlap, taking pictures to the scenery in view-finder in the described unit 41 of taking pictures, obtains photo 3;

Concatenation unit 42, for described photo 2 is covered between described photo 1 and photo 3, splices described photo 1 and photo 3, obtains comprising the distant view photograph of described photo 1 and photo 3; Wherein, the center line of described photo 2 overlaps with the junction of described photo 1 and photo 3.

Concrete, the described unit 41 of taking pictures is for when the distance between the terminal border of described photo 1 and the starting point border of described camera view-finder is reduced to X, take the terminal border of described photo 1 as symmetry axis, find a view and take pictures for the length of taking pictures with 2X, obtain photo 2 in view-finder;

Wherein, the value of described X is less than or equal to 1/2nd of view-finder length.

Further, as shown in Figure 5, described concatenation unit 42 comprises:

Divide module 421, for the moving direction along described camera, described photo 2 is on average divided into 2N+1 part region;

Described concatenation unit 42 is for covering N+1 part region of described photo 2 between described photo 1 and photo 3.

Described concatenation unit 42 also, for detection of the degree of coupling of the pixel in described photo 1 and described photo 2, splices described photo 1 and photo 2 the region the highest degree of coupling as splicing regions; Detect the degree of coupling of the pixel in described photo 2 and described photo 3, using the region the highest degree of coupling as splicing regions, described photo 2 and photo 3 are spliced.

Concrete, described division module 421, also for the division specification according to described photo 2, be divided into N part region by described photo 1 and the intersection of described photo 2;

Described concatenation unit 42 is also for comparing successively the pixel degree of coupling in the N part region in N part region and the described photo 2 of described photo 1, using the region the highest degree of coupling or the degree of coupling region that reaches predetermined threshold value as splicing regions, described photo 1 and photo 2 are spliced;

Described division module 421, also for the division specification according to described photo 2, be divided into N part region by described photo 3 and the intersection of described photo 2;

Described concatenation unit 42 is also for comparing successively the pixel degree of coupling in the N part region in N part region and the described photo 2 of described photo 3, using the region the highest degree of coupling or the degree of coupling region that reaches predetermined threshold value as splicing regions, described photo 3 and photo 2 are spliced.

The terminal that the embodiment of the present invention provides, along with the movement of camera, terminal is taken pictures successively and is obtained photo 1, photo 2, photo 3, wherein, the scenery comprising in photo 1 and photo 3 is continuous, between photo 1 and photo 2 and photo 2 and photo 3, all comprises overlapping scenery; Photo 2 is covered between photo 1 and photo 3, photo 1 and photo 3 are spliced with photo 2.Compared with prior art, the terminal that the present embodiment provides directly adopts the zone line of photo 2 to cover between photo 1 and photo 3, splicing part between photo 1 and photo 3 is substituted by photo 2, can avoid the scenery between photo 1 and photo 3 to occur the problem misplacing; Simultaneously, at comparison film 1(or photo 3) and photo 2 process of splicing in, from photo 1(or photo 3) and the intersection of photo 2 determine splicing regions, so the degree of coupling in amalgamation region can be guaranteed fully, splicing effect can been significantly enhanced.

Through the above description of the embodiments, those skilled in the art can be well understood to the mode that the present invention can add essential common hardware by software and realize, and can certainly pass through hardware, but in a lot of situation, the former is better execution mode.Based on such understanding, the part that technical scheme of the present invention contributes to prior art in essence in other words can embody with the form of software product, this computer software product is stored in the storage medium can read, as the floppy disk of computer, hard disk or CD etc., comprise that some instructions are in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) carry out the method described in each embodiment of the present invention.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited to this, any be familiar with those skilled in the art the present invention disclose technical scope in; can expect easily changing or replacing, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of described claim.

Claims

1. a photographic method, is characterized in that, comprising:

2. method according to claim 1, is characterized in that, described dollying head, and described photo 1 slides in the view-finder of described camera, take the terminal border of described photo 1, as symmetry axis, finds a view and takes pictures, and comprising:

Dollying head, described photo 1 slides in the view-finder of described camera; When the distance between the terminal border of described photo 1 and the starting point border of described camera view-finder is reduced to X, take the terminal border of described photo 1 as symmetry axis, find a view and take pictures for the length of taking pictures with 2X, obtain photo 2 in view-finder;

3. method according to claim 2, is characterized in that, described described photo 2 is covered between described photo 1 and photo 3, comprising:

Moving direction along described camera is on average divided into 2N+1 part region by described photo 2, and N+1 part region is covered between described photo 1 and photo 3.

4. method according to claim 3, is characterized in that, described method also comprises:

Detect the degree of coupling of the pixel in described photo 1 and described photo 2, using the region the highest degree of coupling as splicing regions, described photo 1 and photo 2 are spliced;

Detect the degree of coupling of the pixel in described photo 2 and described photo 3, using the region the highest degree of coupling as splicing regions, described photo 2 and photo 3 are spliced.

5. method according to claim 3, is characterized in that, described described photo 2 is covered between described photo 1 and photo 3, after described photo 1 and photo 3 are spliced, also comprises:

According to the division specification of described photo 2, will in described photo 1, be divided into N part region with the intersection of described photo 2, and compare successively the pixel degree of coupling in the N part region in N part region and the described photo 2 in described photo 1, using the region the highest degree of coupling or the degree of coupling region that reaches predetermined threshold value as splicing regions, described photo 1 and photo 2 are spliced;

According to the division specification of described photo 2, will in described photo 3, be divided into N part region with the intersection of described photo 2, and compare successively the pixel degree of coupling in the N part region in N part region and the described photo 2 in described photo 3, using the region the highest degree of coupling or the degree of coupling region that reaches predetermined threshold value as splicing regions, described photo 3 and photo 2 are spliced.

6. a terminal, is characterized in that, comprising:

7. terminal according to claim 6, it is characterized in that, the described unit of taking pictures is specifically for when the distance between the terminal border of described photo 1 and the starting point border of described camera view-finder is reduced to X, take the terminal border of described photo 1 as symmetry axis, find a view and take pictures for the length of taking pictures with 2X, obtain photo 2 in view-finder;

8. terminal according to claim 7, is characterized in that, described concatenation unit comprises:

Divide module, for the moving direction along described camera, described photo 2 is on average divided into 2N+1 part region;

Described concatenation unit is for covering N+1 part region of described photo 2 between described photo 1 and photo 3.

9. terminal according to claim 8, is characterized in that:

Described concatenation unit also, for detection of the degree of coupling of the pixel in described photo 1 and described photo 2, splices described photo 1 and photo 2 the region the highest degree of coupling as splicing regions; Detect the degree of coupling of the pixel in described photo 2 and described photo 3, using the region the highest degree of coupling as splicing regions, described photo 2 and photo 3 are spliced.

10. terminal according to claim 8, is characterized in that:

Described division module, also for the division specification according to described photo 2, be divided into N part region by described photo 1 and the intersection of described photo 2;

Described concatenation unit is also for comparing successively the pixel degree of coupling in the N part region in N part region and the described photo 2 of described photo 1, using the region the highest degree of coupling or the degree of coupling region that reaches predetermined threshold value as splicing regions, described photo 1 and photo 2 are spliced;

Described division module, also for the division specification according to described photo 2, be divided into N part region by described photo 3 and the intersection of described photo 2;

Described concatenation unit is also for comparing successively the pixel degree of coupling in the N part region in N part region and the described photo 2 of described photo 3, using the region the highest degree of coupling or the degree of coupling region that reaches predetermined threshold value as splicing regions, described photo 3 and photo 2 are spliced.