CN104424295B - A kind of information processing method and electronic equipment - Google Patents

Abstract

The present invention relates to multimedia technology fields, disclose a kind of information processing method and electronic equipment, to solve the technical issues of chaotic caused lookup image of image storage in the prior art takes a long time, method is applied to electronic equipment, electronic equipment includes at least image acquisition units, M images are obtained this method comprises: acquiring by image acquisition units, M is the integer more than or equal to 2；The acquisition parameter of every image in M images is determined, to obtain M acquisition parameter；The sortord of M images is adjusted to the second sortord, the second sortord by the first sortord according to M acquisition parameter specifically: make M image when through the arrangement of the second sortord M acquisition parameter according to default Long-term change trend sortord.

Description

A kind of information processing method and electronic equipment

Technical field

The present invention relates to multimedia technology field, in particular to a kind of information processing method and electronic equipment.

Background technique

With the continuous development of science and technology, electronic technology has also obtained development at full speed, and then also produces increasingly More electronic equipments, such as: mobile phone, tablet computer, laptop etc..People can realize various function by electronic equipment Can, such as: acquisition image, broadcasting music, reading documents etc..

In the prior art, after obtaining multiple images by image acquisition device, it will usually according to acquisition Image is stored in electronic equipment by sequencing.

Present inventor at least exists in the prior art during realizing the embodiment of the present application technical solution Following technical problem:

Due to that in the prior art, image can only be stored in electronic equipment according to the sequencing of Image Acquisition, and The variation sequence of the sequencing of Image Acquisition and picture material not fully matches, so lead to depositing for image in the prior art Storage is more chaotic, and then causes to there is technical issues that when searching image.

Summary of the invention

The embodiment of the present invention provides a kind of information processing method and electronic equipment, stores for solving image in the prior art The technical issues of image takes a long time is searched caused by chaotic.

According to the first aspect of the invention, a kind of information processing method is provided, electronic equipment, the electronic equipment are applied to Including at least image acquisition units, which comprises acquired by described image acquisition unit and obtain M images, M be greater than Integer equal to 2；The acquisition parameter of every image in the M images is determined, to obtain M acquisition parameter；According to the M The sortord of the M images is adjusted to the second sortord, the second row by the first sortord by a acquisition parameter Sequential mode specifically: make the M image when being arranged by second sortord M acquisition parameter according to presetting The sortord of Long-term change trend.

With reference to first aspect, in the first possible implementation, every image in the determination M images Acquisition parameter, to obtain M acquisition parameter, specifically: determine described image when acquiring every image in the M images Relative position information of the acquisition unit relative to Reference, to obtain M relative position information, the M relative position letter Breath is the M acquisition parameter.

With reference to first aspect, in the second possible implementation, every image in the determination M images Acquisition parameter, to obtain M acquisition parameter, specifically: determine the focal length value for acquiring every image in the M images, To obtain M focal length value, the M focal length value is the M acquisition parameter.

With reference to first aspect, in the third possible implementation, every image in the determination M images Acquisition parameter, to obtain M acquisition parameter, specifically: analyzed by every image to the M images, in turn Obtain the M acquisition parameter；Or i-th image in the M image is being obtained by the acquisition of described image acquisition device While, the acquisition parameter of i-th image is recorded, and then obtain the M acquisition parameter, the integer that i is 1 to M.

With reference to first aspect, in the fourth possible implementation, it is described will be described according to the M acquisition parameter After the sortord of M images is adjusted to the second sortord by the first sortord, the method also includes: by described Second sortord shows the M image；Or the M images are generated into multimedia text according to second sortord Part.

The 4th kind of possible implementation with reference to first aspect, in a fifth possible implementation, described more It is described that the M images are generated into multimedia file according to second sortord when media file is living document, specifically It include: to generate L intermediate image relevant to the M images；The L intermediate images are inserted into the M image, in turn The living document is generated based on the L intermediate images and the M, so that every two in the living document are adjacent Image change amount between image is less than default variable quantity.

Any one possible reality with reference to first aspect or in the first to five kind of possible implementation of first aspect Existing mode opens images in the M in a sixth possible implementation, specifically: similarity value is greater than the figure of preset threshold When picture, described acquired by described image acquisition unit obtains M images, specifically includes: being adopted by described image acquisition device Collection obtains N images, and N is the integer more than or equal to M；Determine that similarity value is greater than the default threshold from the N images The M images of value.

According to the second aspect of the invention, a kind of electronic equipment is provided, the electronic equipment includes at least Image Acquisition list Member, the electronic equipment further include: acquisition module, for obtaining M images by the acquisition of described image acquisition unit, M is big In the integer for being equal to 2；Determining module is adopted for determining the acquisition parameter of every image in the M images with obtaining M Collect parameter；Sorting module, for the M to be opened the sortord of image by the first sortord according to the M acquisition parameter It is adjusted to the second sortord, second sortord specifically: make the M image by second sortord When arrangement the M acquisition parameter according to default Long-term change trend sortord.

In conjunction with second aspect, in the first possible implementation, the determining module is specifically used for: determining acquisition Relative position information of the described image acquisition unit relative to Reference when the M opens every image in images, to obtain M A relative position information, the M relative position information are the M acquisition parameter.

In conjunction with second aspect, in the second possible implementation, the determining module is specifically used for: determining acquisition The focal length value of every image in the M images, to obtain M focal length value, the M focal length value is the M acquisition Parameter.

In conjunction with second aspect, in the third possible implementation, the determining module is specifically used for: by institute Every image for stating M images is analyzed, and then obtains the M acquisition parameter；Or passing through described image acquisition unit While acquisition obtains i-th image in the M image, the acquisition parameter of i-th image is recorded, and then obtain institute State M acquisition parameter, the integer that i is 1 to M.

In conjunction with second aspect, in the fourth possible implementation, the electronic equipment further include: processing module is used In the sortord of the M images is being adjusted to the second sequence side by the first sortord according to the M acquisition parameter After formula, the M image is shown by second sortord；Or the M are schemed according to second sortord As generating multimedia file.

In conjunction with the 4th kind of possible implementation of second aspect, in a fifth possible implementation, described more When media file is living document, the processing module is specifically included: generation unit, related to the M images for generating L intermediate images；It is inserted into unit, for the L intermediate images to be inserted into the M image, and then based in the L Between image and the M generate the living documents so that the image between every two adjacent images in the living document Variable quantity is less than default variable quantity.

In conjunction with the first to five kind of possible implementation of second aspect or second aspect, the 6th kind of possible realization side In formula, images are opened in the M, specifically: when similarity value is greater than the image of preset threshold, the acquisition module is specifically used for It is acquired by described image acquisition device and obtains N images, N is the integer more than or equal to M；The acquisition module further includes determining Unit, for determining that similarity value is greater than the M images of the preset threshold from the N images.

The present invention has the beneficial effect that:

Due in embodiments of the present invention, after acquiring M images of acquisition by image acquisition units, determining this M The acquisition parameter of every image of image, and then M acquisition parameter is obtained, M is opened into image finally by this M acquisition parameter Sortord is adjusted to the second sortord by the first sortord, and then makes this M images by the second sequence side Its corresponding M acquisition parameter is according to default Long-term change trend when formula arranges, and then M graphical arrangement modes for obtaining this are more Orderly, so that having reached reduces the time-consuming technical effect for searching this M images, and it provide the user the body continuously watched It tests, improves the Experience Degree of user.

Detailed description of the invention

Fig. 1 is the flow chart of information processing method in the embodiment of the present invention；

Fig. 2 is the flow chart that M images are determined in information processing method of the embodiment of the present invention；

Fig. 3 is the flow chart for generating living document in information processing method of the embodiment of the present invention based on M images；

Fig. 4 a is the schematic diagram for obtaining 6 images in the embodiment of the present invention one by the camera acquisition of mobile phone；

Fig. 4 b be the embodiment of the present invention one in from camera acquire 6 images in determine in 4 images and by this 4 scheme The sortord of picture is adjusted to the schematic diagram of the second sortord by the first sortord；

It by determine 4 image mosaics is still image schematic diagram that Fig. 4 c, which is in the embodiment of the present invention one,；

Fig. 5 a is the schematic diagram for obtaining 5 images in the embodiment of the present invention two by the camera acquisition of tablet computer；

Fig. 5 b is by the sortord of 5 images of camera acquisition in the embodiment of the present invention two by the first sortord tune Whole is the schematic diagram of the second sortord；

Fig. 5 c is the signal that intermediate image is generated when generating living document based on this 5 images in the embodiment of the present invention two Figure；

Fig. 6 is the structure chart of electronic equipment in the embodiment of the present invention.

Specific embodiment

The embodiment of the present invention provides a kind of information processing method and electronic equipment, stores for solving image in the prior art The technical issues of image takes a long time is searched caused by chaotic.

In order to solve the above technical problems, general thought is as follows for technical solution in the embodiment of the present invention: being adopted by image Collect unit acquisition and obtain M images, M is the integer more than or equal to 2；Determine the acquisition parameter of every image in M images, with Obtain M acquisition parameter；The sortord of M images is adjusted to second row by the first sortord according to M acquisition parameter Sequential mode, the second sortord specifically: make M image by the second sortord arrange when M acquisition parameter according to pre- If the sortord of Long-term change trend.

Due in the above scheme, M being opened the sortord of image by first row by M acquisition parameter of M images Sequential mode is adjusted to the second sortord, and then makes this M images its corresponding M when arranging by second sortord A acquisition parameter keeps acquired M graphical arrangement modes more orderly according to default Long-term change trend, to reach The time-consuming technical effect for searching this M images is reduced, the Experience Degree of user is improved.

In order to better understand the above technical scheme, below by attached drawing and specific embodiment to technical solution of the present invention It is described in detail, it should be understood that the specific features in the embodiment of the present invention and embodiment are to the detailed of technical solution of the present invention Thin explanation, rather than the restriction to technical solution of the present invention, in the absence of conflict, the embodiment of the present invention and embodiment In technical characteristic can be combined with each other.

On the one hand, the embodiment of the present invention provides a kind of electronic equipment, is applied to electronic equipment, and electronic equipment includes at least figure As acquisition device, electronic equipment is for example are as follows: mobile phone, digital camera, tablet computer etc..

Referring to FIG. 1, information processing method specifically includes the following steps:

Step S101: being acquired by image acquisition units and obtain M images, and M is the integer more than or equal to 2；

Step S102: the acquisition parameter of every image in M images is determined, to obtain M acquisition parameter；

Step S103: the sortord of M images is adjusted to by the first sortord by second row according to M acquisition parameter Sequential mode, the second sortord specifically: make M image by the second sortord arrange when M acquisition parameter according to pre- If the sortord of Long-term change trend.The default trend be continuous variation tendency, more specifically, can include but is not limited to from Arrive greatly it is small, from small to large, the consecutive variations such as from left to right.

In the specific implementation process, M images can also be adopted with image collecting device arbitrary image collected with image Similarity value is greater than the image of preset threshold in the acquired image of acquisition means, with no restriction to this embodiment of the present invention.

Embodiment as a further preference opens images in M, specifically: when similarity value is greater than the image of preset threshold, It is acquired by image acquisition units and obtains M images, referring to FIG. 2, specifically including:

Step S201: N images are obtained by image acquisition device, N is the integer more than or equal to M；

Step S202: determine that similarity value is greater than M images of preset threshold from N images.

Wherein, in step S201, user can obtain N figures of corresponding multiple objective bodies by image acquisition device Picture, such as: corresponding user A acquires 10 images, corresponding animal B acquires an image, corresponding flower acquires image etc.；

Wherein, in step S202, image analysis can be carried out to N images, and then it is pre- to determine whether its similarity is greater than If threshold value；In the specific implementation process, whether similarity value is greater than preset threshold and can be characterized in several ways, example Such as: if in two images including identical goal-selling body, showing that its similarity value is greater than preset threshold, with step S201 For 12 cited images, it can determine that 10 images comprising user A are the image that similarity is greater than preset threshold, into And determine that it is M images；For another example: if two image dominant hues are identical, showing that its similarity value is greater than preset threshold Etc., with no restriction to this embodiment of the present invention.

In the specific implementation process, M acquisition parameter obtained in step S102 can acquisition parameter in a variety of forms, It is set forth below two kinds therein to be introduced, certainly, in the specific implementation process, is not limited to following two situation.

The first, determines the acquisition parameter of every image in M images, to obtain M acquisition parameter, specifically: really Surely relative position information of the image acquisition units relative to Reference when acquisition M opens every image in images, to obtain M Relative position information, M relative position information are M acquisition parameter.

In the specific implementation process, Reference can be a variety of objects, such as: it is a certain specific objective body, a certain specific Orientation etc., with no restriction to this embodiment of the present invention.

Further, relative position information may be a variety of relative position informations, such as are as follows: relative to Reference Distance value, relative to angle value of Reference etc., the embodiment of the present invention is with no restriction.

It in the specific implementation process, can be by red when relative position information is the distance value relative to Reference Outer rangefinder or laser side distance meter detect acquisition distance value, such as: infrared range-measurement system or Laser Measuring be set on an electronic device Distance meter by infrared range-measurement system or swashs while obtaining each image of this M images by image acquisition device Optar emits infrared light or laser to Reference, then determined by the two-way time of infrared light or laser away from From value, in this case, Reference is usually an objective body, such as: common objective body included in M images, no It include the objective body etc. in M images.

In the specific implementation process, when relative position information is the angular range relative to Reference, can pass through The visual angle of the image collecting device of every image in M images of direction and acquisition of electronic equipment determines angular range, at this In the case of kind, Reference is a certain particular orientation, in this case, both can recorde image collecting device relative to this The angle value of particular orientation as the acquisition parameter, make by the angular field of view that also can recorde the acquired image of the image collecting device For the acquisition parameter, with no restriction to this embodiment of the present invention.

Such as: if using positive east as particular orientation, 0 ° of positive Dong Fangzewei, and electronic equipment is towards 45 ° of the southeast, So electronic equipment is then 45 ° towards angle, it is assumed that camera lens visual angle are as follows: 68 °, then the angular range of acquired image is then Are as follows: 11 °~79 ° (namely: 45 ° -68 °/2~45 °+68 °/2).In this case, 45 ° both can recorde and be used as the acquisition Parameter also can recorde 11 °~79 ° and be used as the acquisition parameter.

Second, determine the acquisition parameter of every image in M images, to obtain M acquisition parameter, specifically: really Surely the focal length value of every image in M images of acquisition, to obtain M focal length value, M focal length value is M acquisition parameter.

In the specific implementation process, it is generally the case that in order to which the focus object guaranteed in acquired image can be selected Suitable size shown, so in place acquisition image farther out, focal length value can be arranged it is larger, and closerly Side acquisition image when, can by focal length value be arranged it is smaller, so can by acquire M image focal length value to M open images into Row ordered arrangement.

As a further preference in embodiment, M acquisition parameter can be obtained in step S102 in several ways, under Two kinds of acquisition modes therein are enumerated in face, certainly, in the specific implementation process, are not limited to following two mode.

The first, determines the acquisition parameter of every image in M images, to obtain M acquisition parameter, specifically:

It is analyzed by every image to M images, and then obtains M acquisition parameter.

Such as: it, can be in electronic equipment if M acquisition parameter is specially the angular range in relative position information In the direction of electronic equipment and the visual angle of image collecting device when prestoring each image in acquisition M images, and then to M When image is analyzed, angular range can be determined by the direction and visual angle；Another example is: if M acquisition parameter tool Body is the distance value in relative position information, then when can prestore this M images of acquisition in the electronic device, electronic equipment institute The infrared light of transmitting or the two-way time of laser, and then when analyzing M images, it can be by two-way time come really Determine M acquisition parameter etc..

Since in the above scheme, when acquiring M images, M acquisition parameter can't be obtained by operation, and it is The other parameters for determining M acquisition parameter are saved, so saving the time-consuming of acquisition image, the image for improving electronic equipment is adopted Sensitivity of the acquisition means when acquiring image.

Second, determine the acquisition parameter of every image in M images, to obtain M acquisition parameter, specifically:

While obtaining i-th image in M images by image acquisition device, i-th image is recorded Acquisition parameter, and then obtain M acquisition parameter, the integer that i is 1 to M.

Specifically, that is, when acquiring any one image in M images, the acquisition of this image is recorded in passing Parameter, and then when being ranked up by M acquisition parameter to this M images, directly it is for this M acquisition parameter of storage Sequence can be achieved, be ranked up spent technical effect to image so having reached and having saved.

In the specific implementation process, in step S103, default trend can be the variation tendency of arbitrary continuation, such as: by Cumulative big trend, the trend being gradually reduced etc., with no restriction to this embodiment of the present invention.In the specific implementation process, exist After being ranked up based on step S103 to M images, M images can also be supplied to user, wherein can be by more M images are supplied to user by kind mode, and two ways therein is set forth below, certainly, in the specific implementation process, is not limited to Following two mode.

The first, shows M images by the second sortord.

In the specific implementation process, show that M images can there are many situations by the second sortord, such as: by M Image is stored in electronic equipment according to the second sortord, and such user can be browsed in browsing by the second sortord This M images；Another example is: this M images etc. are shown according to the second sortord by way of lantern slide, to this present invention Embodiment is with no restriction.

Second, M images are generated into multimedia file according to the second sortord.

In the specific implementation process, multimedia file can be the multimedia file of a variety of situations, such as: still image, Dynamic image, video file etc., with no restriction to this embodiment of the present invention.

Due to that in the above scheme, M image can be ranked up by M acquisition parameter of M images of acquisition, And multimedia file is generated, wherein the M in the multimedia file generated images are arranged according to the second sortord, with Making its corresponding M acquisition parameter is in default Long-term change trend, so reached the more accurate skill of multimedia file generated Art effect.

In the specific implementation process, still image is a wide angle picture under normal conditions, is opposite in relative position information When the angular range of image collecting device, M images can be generated, wherein static by still image by M angular range Image has first angle value range relative to Reference, and the angular range value of any image in M images is all contained in In first angle value range.

Such as: assuming that M images are specially 4 images, wherein due east direction is 0 degree, first image angle range are as follows: 10 °~70 °, second image angle range is 50 °~120 °, third image angle range is 105 °~165 °, the 4th Image angle range be 150 °~220 °, then by this four image mosaics be still image when, then can be spliced into 10 °~ 220 ° of still image.

In the specific implementation process, dynamic image and video file may be collectively referred to as living document again, in living document Distance value increasing or decreasing of each frame image relative to Reference, specifically, that is, the image of dynamic image characterization Acquisition device is gradually increased or is gradually reduced relative to the distance of a certain Reference in dynamic image.

Embodiment as a further preference, when multimedia file is living document, according to the second sortord by M Image generates multimedia file, referring to FIG. 3, specifically including:

Step S301: L intermediate image relevant to M images is generated；

Step S302: by M images of L intermediate image insertions, and then dynamic text is generated based on L intermediate images and M Part, so that the image change amount between every two adjacent images in living document is less than default variable quantity.

Wherein, in step S301, when generating L intermediate images, therein two can be set forth below in several ways Kind generating mode in the specific implementation process, is not limited to following two mode certainly.

1. carrying out image difference to M images, the image change amount between two adjacent images wherein is greater than default When variable quantity, it is based on this two adjacent images and generates an intermediate image, and its position is come between this two adjacent images, A new image sequence is formed, until the image change amount between all adjacent images in this image sequence is both less than pre- If until variable quantity.

2. being based on M acquisition parameter, L intermediate images are generated, it is generally the case that in the acquisition parameter of adjacent two images When variable quantity is bigger, image change amount is also bigger, so image change amount can be determined by acquisition parameter variable quantity.

When with acquisition parameter being angle value relative to Reference, it is assumed that angle value variation corresponding to default variable quantity Amount is 40 °, if that the angle variable quantity between two adjacent images is less than 40 °, it is determined that the figure of this two adjacent images Variable quantity is preset as variable quantity is less than, because without generating intermediate image；And the angle between two adjacent images becomes When change amount is greater than 40 °, it is determined that the image change amount of this two adjacent images is greater than default variable quantity, thus needs to generate intermediate Image.

Wherein, in step S302, due to by every two adjacent images in step S301 image sequence generated it Between the both less than default variable quantity of image change amount, so can guarantee smooth between the consecutive frame of dynamic image generated Transition.

The method that the electronic equipment of the information processing in the present invention is introduced below by way of several specific embodiments, below Embodiment mainly describe several possible application scenarios of information processing method.It should be noted that the reality in the present invention It applies example to be served only for explaining the present invention, and cannot be used for the limitation present invention.All meet the embodiment of inventive concept in this hair Within bright protection scope, those skilled in the art know naturally should how thought according to the present invention be deformed.

Embodiment one

Information processing method in the embodiment of the present invention is introduced in the present embodiment by taking electronic equipment is mobile phone as an example, on mobile phone It include a camera.

At the T1 moment, user A opens the camera of mobile phone, and acquisition obtains 6 images, as shown in fig. 4 a, respectively image 41, image 42a, image 42b, image 42c, image 42d, image 43, while mobile phone records the angular range of this 4 images, also It is with due east direction for 0 °, and then the angular range difference of this 6 images is as shown in table 1:

Table 1

First sortord	Picture number	Angular range
			①	Image 41	- 10 °~50 °
②	Image 42a	10 °~70 °
			③	Image 42b	150 °~220 °
④	Image 42c	105 °~145 °
			⑤	Image 42d	50 °~120 °
⑥	Image 43	210 °~270 °

Then, mobile phone analyzes this 4 images, determines image 42a, image 42b, image 42c, image 42d Similarity value is greater than preset threshold, and then determines that this 4 images are M images；

Then mobile phone is ranked up this 4 images so that 4 angle values corresponding to 4 images after sequence be in by Cumulative big trend, so by its sortord by 2., 3., 4., being 5. adjusted to 2., 5., 4., 3., as shown in Figure 4 b；It is sorting After finishing, which generates still image 44 for this 4 images, as illustrated in fig. 4 c.

Further, this 4 images can also be generated to dynamic image or video file, such as: this 4 images are pressed Dynamic image or video file are generated according to from the mode to the east of west movement.

Embodiment two

In the present embodiment, it is introduced so that electronic equipment is tablet computer as an example, tablet computer includes camera, acquisition Parameter is specially range information of the camera relative to the objective body in image.

At the T2 moment, user opens the camera of the tablet computer, and then acquires and obtain 5 images, divides as shown in Figure 5 a, Respectively image 51, image 52, image 53, image 54 and image 55 are distance value point of this 5 images relative to camera Not not as shown in table 2:

Table 2

First sortord	Picture number	Distance value
			①	Image 51	1.5m
②	Image 52	3m

③	Image 53	2.5m
			④	Image 54	2.2m
⑤	Image 55	3.3m

Then, tablet computer is carried out the sortord of this 5 images by analyzing this 5 distance values by One sortord is adjusted to the second sortord, specifically: 1., 4., 3., 2., 5. so that sequence after 5 images corresponding to 5 distance values be in the trend that is gradually increased, as shown in Figure 5 b；

Then the trigger action of tablet computer response user, and then this 5 images are generated into a dynamic image, wherein presetting Variable quantity is that corresponding distance change amount is 0.5m, since the distance between adjacent image 51,54 variable quantity is 0.7m, greatly In 0.5m, so generating an intermediate image 56 based on this, it is inserted between image 51 and image 54, as shown in Figure 5 c, and other figures The distance between picture variable quantity, which is respectively less than, is equal to 0.5m, so insertion intermediate image is not needed, and then tablet computer is based on image 51, which generate a dynamic image to image 56, is supplied to user.

Embodiment three

The embodiment of the present invention three is introduced so that electronic equipment is mobile phone as an example, and mobile phone includes camera, acquisition parameter tool Body is angle value of the camera relative to positive east.

At the T3 moment, user visits historical relic in museum；

At the T4 moment, user carries out Image Acquisition operation to a historical relic by the camera of mobile phone, and wherein the historical relic sits north It is placed towards south, which is a wall；

User controls mobile phone towards due south direction first, and then the acquisition of the face historical relic obtains the first image；Then user It is walked around historical relic side of turning right, row to 45 ° of acquisitions second images of acquisition of southeastern direction；Then user continues to walk toward the right, and row is extremely Due east direction, acquisition obtains third image, since user has run to by the place of wall at this time, so start past around historical relic The left side is walked, and when rotation is to 45 ° of southwestward, acquisition obtains the 4th image；Then user continues to turn left away, is running to due west Fang Shi, acquisition obtain the 5th image and acquire the schematic diagram of 5 images of acquisition by user as shown in table 3:

Table 3

First sortord

Image

Angle value

①	First image	90°
			②	Second image	45°
③	Third image	0°
			④	4th image	135°
⑤	5. image	180°

Then mobile phone is ranked up this 5 images in such a way that acquisition parameter is incremented by, and that is to say acquisition following second Sortord: 3. 2. 1. 4. 5.；

This 5 images after finally mobile phone will be collated generate a video files, can be led to by video file user It crosses to the east of the visual angle in west and checks the historical relic.

On the other hand, the embodiment of the present invention provides a kind of electronic equipment, and electronic equipment includes at least image acquisition units, asks With reference to Fig. 6, electronic equipment further include:

Acquisition module 60 obtains M images for acquiring by image acquisition units, and M is the integer more than or equal to 2；

Determining module 61, for determining the acquisition parameter of every image in M images, to obtain M acquisition parameter；

Sorting module 62, for being adjusted to the sortord of M images by the first sortord according to M acquisition parameter Second sortord different from the first sortord, the second sortord specifically: every two for opening M in images are adjacent Sortord of the acquisition parameter variable quantity of image less than the first default variable quantity.

Optionally, determining module 61 are specifically used for:

Image acquisition units are believed relative to the relative position of Reference when determining every image in M images of acquisition Breath, to obtain M relative position information, M relative position information is M acquisition parameter.

Optionally, determining module 61 are specifically used for:

Determine the focal length value of every image in M images of acquisition, to obtain M focal length value, M focal length value is M Acquisition parameter.

Optionally, determining module 61 are specifically used for:

It is analyzed by every image to M images, and then obtains M acquisition parameter；Or

While acquiring i-th image in M images of acquisition by image acquisition units, i-th image is recorded Acquisition parameter, and then obtain M acquisition parameter, the integer that i is 1 to M.

Optionally, electronic equipment further include:

Processing module, for being adjusted to the sortord of M images by the first sortord according to M acquisition parameter After second sortord, M images are shown by the second sortord；Or

M images are generated into multimedia file according to the second sortord.

Optionally, when multimedia file is living document, processing module is specifically included:

Generation unit, for generating L intermediate image relevant to M images；

It is inserted into unit, for L intermediate image insertion M to be opened images, and then is generated and is moved based on L intermediate images and M State file, so that the image change amount between every two adjacent images in living document is less than default variable quantity.

Optionally, images are opened in M, specifically: when similarity value is greater than the image of preset threshold, acquisition module 60, specifically For obtaining N images by image acquisition device, N is the integer more than or equal to M；

The acquisition module 60 further includes determination unit, for determining that similarity value is greater than default threshold from N images The M of value images.

The information processing method phase introduced by the electronic equipment that the embodiment of the present application is introduced with the embodiment of the present application Corresponding, based on the information processing method that the embodiment of the present invention is introduced, those skilled in the art can understand of the invention real The basic step and deformation of the electronic equipment that example is introduced are applied, so be no longer discussed in detail herein.

One or more technical solution provided by the invention, has at least the following technical effects or advantages:

(1) due in embodiments of the present invention, after acquiring M images of acquisition by image acquisition units, determining this M The acquisition parameter of every image of image is opened, and then obtains M acquisition parameter, M is opened into images finally by this M acquisition parameter Sortord the second sortord is adjusted to by the first sortord, and then this M images is made to sort by described second Its corresponding M acquisition parameter is according to default Long-term change trend when mode arranges, and then M graphical arrangement modes for obtaining this are more Added with sequence, so that having reached reduces the time-consuming technical effect for searching this M images, the Experience Degree of user is improved.

(2) since in embodiments of the present invention, when acquiring M images, temporarily M acquisition can not obtained by operation Parameter, and the other parameters of determining M acquisition parameter are only saved, so saving the time-consuming of acquisition image, improve electronics Sensitivity of the image collecting device of equipment when acquiring image.

(3) due to that in embodiments of the present invention, can also remember in passing when acquiring any one image in M images The acquisition parameter of this image is recorded, and then when being ranked up by M acquisition parameter to this M images, directly for storage This M acquisition parameter sequence can be realized, imitated so having reached and having saved the technology for being ranked up the spent time to image Fruit.

(4) due in embodiments of the present invention, can by M acquisition parameter of M images of acquisition, by M image into Row sequence, and generates multimedia file, wherein the M in the multimedia file generated images according to the second sortord into Row arrangement, so that its corresponding M acquisition parameter is in default Long-term change trend, so reached multimedia file generated more Accurate technical effect.

(5) due to that in embodiments of the present invention, when multimedia file is living document, can be generated by M images Then L intermediate image insertion M are opened images, and then are generated and moved based on L intermediate images and M images by L intermediate images State file, to make the image change amount between every two two adjacent images of generated multimedia file is both less than default to become Change amount, so can guarantee the smooth transition between the consecutive frame of dynamic image generated.

It should be understood by those skilled in the art that, the embodiment of the present invention can provide as method, system or computer program Product.Therefore, complete hardware embodiment, complete software embodiment or reality combining software and hardware aspects can be used in the present invention Apply the form of example.Moreover, it wherein includes the computer of computer usable program code that the present invention, which can be used in one or more, The computer program implemented in usable storage medium (including but not limited to magnetic disk storage, CD-ROM, optical memory etc.) produces The form of product.

The present invention be referring to according to the method for the embodiment of the present invention, the process of equipment (system) and computer program product Figure and/or block diagram describe.It should be understood that every one stream in flowchart and/or the block diagram can be realized by computer program instructions The combination of process and/or box in journey and/or box and flowchart and/or the block diagram.It can provide these computer programs Instruct the processor of general purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices to produce A raw machine, so that being generated by the instruction that computer or the processor of other programmable data processing devices execute for real The device for the function of being specified in present one or more flows of the flowchart and/or one or more blocks of the block diagram.

These computer program instructions, which may also be stored in, is able to guide computer or other programmable data processing devices with spy Determine in the computer-readable memory that mode works, so that it includes referring to that instruction stored in the computer readable memory, which generates, Enable the manufacture of device, the command device realize in one box of one or more flows of the flowchart and/or block diagram or The function of being specified in multiple boxes.

These computer program instructions also can be loaded onto a computer or other programmable data processing device, so that counting Series of operation steps are executed on calculation machine or other programmable devices to generate computer implemented processing, thus in computer or The instruction executed on other programmable devices is provided for realizing in one or more flows of the flowchart and/or block diagram one The step of function of being specified in a box or multiple boxes.

Although preferred embodiments of the present invention have been described, it is created once a person skilled in the art knows basic Property concept, then additional changes and modifications may be made to these embodiments.So it includes excellent that the following claims are intended to be interpreted as It selects embodiment and falls into all change and modification of the scope of the invention.

Obviously, those skilled in the art can carry out various modification and variations without departing from this hair to the embodiment of the present invention The spirit and scope of bright embodiment.In this way, if these modifications and variations of the embodiment of the present invention belong to the claims in the present invention And its within the scope of equivalent technologies, then the present invention is also intended to include these modifications and variations.

Claims (8)

1. a kind of information processing method, is applied to electronic equipment, the electronic equipment includes at least image acquisition units, feature It is, which comprises

It is acquired by described image acquisition unit and obtains M images, M is the integer more than or equal to 2；

The acquisition parameter of every image in the M images is determined, to obtain M acquisition parameter；

The sortord of the M images is adjusted to the second sequence side by the first sortord according to the M acquisition parameter Formula, second sortord specifically: adopt the M image described M when arranging by second sortord Collect parameter according to the sortord of default Long-term change trend；

Wherein, the acquisition parameter of every image in the determination M images, to obtain M acquisition parameter, specifically: Determine that described image acquisition unit is believed relative to the relative position of Reference when acquiring every image in the M image Breath, to obtain M relative position information, the M relative position information is the M acquisition parameter；Or,

Determine the focal length value for acquiring every image in the M image, to obtain M focal length value, the M focal length value is The M acquisition parameter.

2. the method as described in claim 1, which is characterized in that the M is opened images according to the M acquisition parameter described Sortord the second sortord is adjusted to by the first sortord after, the method also includes:

The M image is shown by second sortord；Or

The M images are generated into multimedia file according to second sortord.

3. method according to claim 2, which is characterized in that the multimedia file be living document when, it is described according to The M images are generated multimedia file by second sortord, are specifically included:

Generate L intermediate image relevant to the M images；

By the L intermediate images insertion M images, and then based on described in the L intermediate images and the M generations Living document, so that the image change amount between every two adjacent images in the living document is less than default variable quantity.

4. the method as described in any claim of claim 1-3, which is characterized in that images are opened in the M, specifically: similarity When value is greater than the image of preset threshold, described acquired by described image acquisition unit obtains M images, specifically includes:

It is acquired by described image acquisition device and obtains N images, N is the integer more than or equal to M；

Determine that similarity value is greater than the M images of the preset threshold from the N images.

5. a kind of electronic equipment, the electronic equipment includes at least image acquisition units, which is characterized in that the electronic equipment is also Include:

Acquisition module, for obtaining M images by the acquisition of described image acquisition unit, M is the integer more than or equal to 2；

Determining module, for determining the acquisition parameter of every image in the M images, to obtain M acquisition parameter；

Sorting module, for being adjusted the sortord of the M images by the first sortord according to the M acquisition parameter For the second sortord, second sortord specifically: arrange the M image by second sortord Shi Suoshu M acquisition parameter according to default Long-term change trend sortord；

Wherein, the determining module, is specifically used for: determining that described image acquires when acquiring every image in the M image Relative position information of the unit relative to Reference, to obtain M relative position information, the M relative position information is For the M acquisition parameter；Or,

Determine the focal length value for acquiring every image in the M image, to obtain M focal length value, the M focal length value is The M acquisition parameter.

6. electronic equipment as claimed in claim 5, which is characterized in that the electronic equipment further include:

Processing module, for the M to be opened the sortord of image by the first sortord tune according to the M acquisition parameter It is whole be the second sortord after, pass through second sortord and show the M image；Or

The M images are generated into multimedia file according to second sortord.

7. electronic equipment as claimed in claim 6, which is characterized in that described when the multimedia file is living document Processing module specifically includes:

Generation unit, for generating L intermediate image relevant to the M images；

It is inserted into unit, for the L intermediate images to be inserted into the M image, and then based on the L intermediate images and institutes It states M and generates the living document, so that the image change amount between every two adjacent images in the living document is less than Default variable quantity.

8. the electronic equipment as described in any claim of claim 5-7, which is characterized in that images are opened in the M, specifically: phase When being greater than the image of preset threshold like angle value, the acquisition module is specifically used for obtaining N by the acquisition of described image acquisition device Image is opened, N is the integer more than or equal to M；

The acquisition module further includes determination unit, described default for determining that similarity value is greater than from the N images The M of threshold value images.