CN107770513A - Image-pickup method and device, terminal - Google Patents

Abstract

This application discloses a kind of image-pickup method and device, terminal, belong to electronic technology field.Described image acquisition method is used for terminal, and terminal includes：Folding display screen and multiple images acquisition component, fold line of the terminal along display screen are divided into multiple folding parts, and multiple images acquisition component is located at the same side of terminal, and multiple images acquisition component includes：Image collection assembly on different folding parts, described image acquisition method include：Receive 3-D view shooting instruction；When detecting that display screen is in deployed condition, shot and instructed according to 3-D view, control at least two image collection assemblies collection two dimensional image in multiple images acquisition component；The two dimensional image collected according at least two image collection assemblies generates 3-D view.The problem of object features included present application addresses the image of terminal taking are less, and the shooting effect of terminal is poor, improve the shooting effect of terminal.The application is used for shooting image.

Description

Image-pickup method and device, terminal

Technical field

The application is related to electronic technology field, more particularly to a kind of image-pickup method and device, terminal.

Background technology

With the development of electronic technology, camera is provided with big multiple terminals, user can pass through the camera in terminal Shoot photo.

In correlation technique, the back side of terminal is usually provided with a rear camera, and user, can when needing to shoot photo To control terminal to open the rear camera, and pass through the image of rear camera collection object.

Because image that in correlation technique, rear camera collects is the image of some angle of object, therefore, the image Comprising object features it is less, the shooting effect of terminal is poor.

The content of the invention

This application provides a kind of image-pickup method and device, terminal, the image that can solve terminal taking is included Object features it is less, the problem of shooting effect of terminal is poor.The technical scheme is as follows：

First aspect, there is provided a kind of terminal, the terminal include：Folding display screen and multiple images collection group Part；

Fold line of the terminal along the display screen is divided into multiple folding parts, and the multiple image collection assembly is located at The same side of the terminal, and the multiple image collection assembly includes：IMAQ group on the different folding parts Part.

Second aspect, there is provided a kind of image-pickup method, for the terminal described in first aspect, described image collection side Method includes：

Receive 3-D view shooting instruction；

When detecting that the display screen is in deployed condition, shot and instructed according to the 3-D view, control is described more At least two image collection assemblies collection two dimensional image in individual image collection assembly；

The two dimensional image collected according at least two image collection assembly generates 3-D view.

The third aspect, there is provided a kind of image collecting device, for the terminal described in first aspect, described image collection dress Put including：

First receiving module, for receiving 3-D view shooting instruction；

First control module, during for being in deployed condition in the display screen for detecting the terminal, according to the three-dimensional Image taking instructs, and controls at least two image collection assemblies in the multiple image collection assembly to gather two dimensional image；

Generation module, the two dimensional image for being collected according at least two image collection assembly generate graphics Picture.

Fourth aspect, there is provided a kind of computer-readable recording medium, be stored with the computer-readable recording medium Instruction, when the instruction is being run on the processor of computer so that the processor is able to carry out described in second aspect Image-pickup method.

5th aspect, there is provided a kind of computer program product for including instruction, when the computer program product is being counted When being run on calculation machine so that computer performs the image-pickup method as described in second aspect.

The beneficial effect brought of technical scheme that the application provides is：

The application provides a kind of image-pickup method, can gather two dimensional image by least two image collection assemblies, And then 3-D view is generated according to the two dimensional image of collection.Therefore, user directly can obtain 3-D view by terminal taking, And 3-D view includes the more feature of the object being taken, the shooting effect of terminal is improved.

Brief description of the drawings

Technical scheme in order to illustrate the embodiments of the present invention more clearly, make required in being described below to embodiment Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present application, for For those of ordinary skill in the art, on the premise of not paying creative work, other can also be obtained according to these accompanying drawings Accompanying drawing.

Fig. 1 is a kind of block diagram of terminal provided in an embodiment of the present invention；

Fig. 2 is the block diagram of another terminal provided in an embodiment of the present invention；

Fig. 3 is a kind of structural representation of terminal provided in an embodiment of the present invention；

Fig. 4 is the structural representation of another terminal provided in an embodiment of the present invention；

Fig. 5 is the structural representation of another terminal provided in an embodiment of the present invention；

Fig. 6 is the structural representation of another terminal provided in an embodiment of the present invention；

Fig. 7 is a kind of method flow diagram of image-pickup method provided in an embodiment of the present invention；

Fig. 8 is the method flow diagram of another image-pickup method provided in an embodiment of the present invention；

The structural representation of terminal when Fig. 9 is a kind of deployed condition provided in an embodiment of the present invention；

Figure 10 is a kind of schematic diagram for shooting 3-D view provided in an embodiment of the present invention；

Figure 11 is the method flow diagram of another image-pickup method provided in an embodiment of the present invention；

Figure 12 is a kind of structural representation of image collecting device provided in an embodiment of the present invention；

Figure 13 is the structural representation of another image collecting device provided in an embodiment of the present invention.

Embodiment

To make the purpose, technical scheme and advantage of the application clearer, below in conjunction with accompanying drawing to the application embodiment party Formula is described in further detail.

With the development of electronic technology, the terminal with shoot function is increasingly popularized, shooting effect of the user for terminal The requirement of fruit also more and more higher, therefore, it is necessary to the shoot function of abundant terminal, improve the shooting effect of terminal.

With reference to figure 1 and Fig. 2, it illustrates a kind of block diagram of terminal 100 provided in an embodiment of the present invention.The terminal 100 can be smart mobile phone, tablet personal computer and e-book etc..Terminal 100 in the application can include one or more such as Lower component：Processor 110, memory 120 and touch display screen 130.

Processor 110 can include one or more processing core.Processor 110 utilizes various interfaces and connection Various pieces in whole terminal 100, by running or performing the instruction being stored in memory 120, program, code set or refer to Order collection, and the data being stored in memory 120 are called, perform the various functions and processing data of terminal 100.Alternatively, Processor 110 can use Digital Signal Processing (DigitalSignalProcessing, DSP), field programmable gate array (Field-ProgrammableGate Array, FPGA), programmable logic array (ProgrammableLogicArray, At least one of) PLA example, in hardware is realized.Processor 110 can integrating central processor (CentralProcessingUnit, CPU), image processor (GraphicsProcessingUnit, GPU) and modulation /demodulation One or more of combinations in device etc..Wherein, CPU mainly handles operating system, user interface and application program etc.；GPU is used The content of display rendering and drawing required for touch display screen 130 is responsible for；Modem is used to handle radio communication.Can With understanding, above-mentioned modem can not also be integrated into processor 110, realized separately through chip piece.

Memory 120 can include random access memory (RandomAccessMemory, RAM), can also include read-only deposit Reservoir (Read-OnlyMemory).Alternatively, the memory 120 includes non-transient computer-readable medium (non- transitorycomputer-readablestoragemedium).Memory 120 can be used for store instruction, program, code, Code set or instruction set.Memory 120 may include storing program area and storage data field, wherein, storing program area can store use In realize the instruction of operating system, for the instruction of at least one function, (for example touch controllable function, sound-playing function, image are broadcast Playing function etc.), instruction for realizing following each embodiments of the method etc.；Storage data field can store to be made according to terminal 100 With data (such as voice data, phone directory) created etc..

So that operating system is Android (Android) system as an example, program and the data such as Fig. 1 institutes that are stored in memory 120 Show, Linux inner core 220, system operation storehouse layer 240, application framework layer 260 and application layer 280 are stored with memory 120. Linux inner core 220 provides the driving of bottom for the various hardware of terminal 100, such as shows driving, audio driven, camera Driving, bluetooth driving, Wi-Fi drivings, power management etc..System operation storehouse layer 240 is by some C/C++ storehouses come for Android System provides main characteristic and supported.As SQLite storehouses provide the support of database, OpenGL/ES storehouses provide 3D drawing Support, Webkit storehouses provide support of browser kernel etc..When Android operation is also provided with system operation storehouse layer 240 Storehouse (AndroidRuntime), it mainly provides some core libraries, can allow for developer using Java language to write Android is applied.Application framework layer 260 provides the various API that may be used during structure application program, and developer can also lead to Cross using these API to build the application program of oneself, for example activity management, window management, view management, notice manage, are interior Hold supplier, assure reason, call management, resource management, orientation management.Operation has at least one application program in application layer 280, These application programs can be contact person's program, short message program, timing routine, the camera applications etc. that operating system carries；Also may be used To be application program that third party developer is developed, such as instant messaging program, photograph pretty program etc..

So that operating system is IOS systems as an example, the program and data stored in memory 120 is as shown in Fig. 2 IOS systems Including：Kernel operating system layer 320 (CoreOSlayer), kernel service layer 340 (Core Serviceslayer), Media layer 360 (Medialayer), tangible layer 380 (CocoaTouchLayer).Kernel operating system layer 320 includes operating system Kernel, driver and underlying programs framework, these underlying programs frameworks provide the function closer to hardware, for positioned at core The program frame of central server layer 340 is used.Kernel service layer 340 be supplied to system service required for application program and/or Program frame, such as basic (Foundation) framework, account framework, advertising framework, data storage framework, network connection frame Frame, geographical position framework, moving frame etc..Media layer 360 provided for application program about audiovisual in terms of interface, such as figure The related interface of the related interface of the related interface of image, Audiotechnica, video technique, the radio play of audio video transmission technology (AirPlay) interface etc..Tangible layer 380 provides the related framework in various conventional interfaces for application development, can touch Touch layer 380 and be responsible for the touch interactive operation of user on the terminal 100.Such as local notice service, long-range Push Service, advertising frame Frame, game tool framework, message user interface interface (UserInterface, UI) framework, user interface UIKit frameworks, map Framework etc..

In framework illustrated in fig. 2, the framework relevant with major applications program includes but is not limited to：Kernel service layer The UIKit frameworks in basic framework and tangible layer 380 in 340.Basic framework provides many basic object class and data Type, provides most basic system service for all application programs, and UI unrelated.And the class that UIKit frameworks provide is basic UI class libraries, for creating the user interface based on touch, iOS application programs can provide UI based on UIKit frameworks, so it The architecture of application program is provided, for building user interface, drawing, processing and user mutual event, response gesture etc. Deng.

Touch display screen 130 is used to receive user using any suitable objects such as finger, felt pens on or near it Touch operation, and the user interface of each application program of display.Before touch display screen 130 is generally arranged at terminal 100 Panel.

Terminal 100 can include：Folding display screen and multiple images acquisition component, terminal 100 can be along displays The fold line of screen is divided into multiple folding parts, and the plurality of image collection assembly can be located at the same side of terminal 100.It is the plurality of Image collection assembly can include：Image collection assembly on different folding parts.Wherein, the fold line of display screen can be The center line of the foldable area of display screen.

It should be noted that in addition to the plurality of image collection assembly, there can also be other IMAQs in terminal 100 Component.Example, when side where the plurality of image collection assembly is located at the display screen of terminal 100, display screen in the terminal Opposite side is also provided with rear camera；When the plurality of image collection assembly is located at the opposite side of the display screen of terminal 100 When, the side where display screen is also provided with front camera, and the embodiment of the present invention is not limited this.

As shown in figure 3, terminal 100 can include multiple images acquisition component 101, touch display screen, the first housing 41, Two housings 42 and the connection component 43 being connected between the first housing 41 and the second housing 42, the first housing 41 and the second housing 42 realize that upset folds by connection component 43, wherein, touch display screen can be folding display screen.

First housing 41 includes the first supporting surface being connected with the touch display screen back side, and relative with the first supporting surface First back side, the second housing 42 include the second supporting surface being connected with the touch display screen back side, and relative with the second supporting surface Second back side.Accordingly, touch display screen includes the first viewing area 131, the second viewing area 132 and the 3rd viewing area 133, wherein, the position correspondence of the first viewing area 131 and the first housing 41, the second viewing area 132 and the second housing 42 Position correspondence, the 3rd viewing area 133 and the position correspondence of connection component 43.

The center line X of 3rd viewing area 133 can be the fold line of display screen, and terminal 100 can be along fold line X It is divided into two folding parts.Optionally, fold line X can halve touch display screen, wherein, the first viewing area in terminal The side of fold line X where 131 can be the first folding part (not marked in Fig. 3), the place of the second viewing area 132 in terminal Fold line X side can be the second folding part (not marked in Fig. 3).

Terminal 100 can include two image collection assemblies 101, and image collection assembly 101 can be camera.This two Individual image collection assembly 101 can be respectively positioned on the side in terminal 100 where display screen, and one of image collection assembly 101 can be located at the one end of the first folding part away from fold line X, and another image collection assembly 101 can be located at second and fold The one end of portion away from fold line X.

It should be noted that the embodiment of the present invention only includes two IMAQs of side where being arranged on display screen with terminal Component, two image collection assemblies are symmetrical arranged on fold line X, and exemplified by remote fold line X.In practical application, terminal Three, four even more more image collection assemblies can also be included, image collection assembly can also be arranged on other positions of terminal Put, such as image collection assembly sets the opposite side of display screen in the terminal, or to be located at display screen diagonal for image collection assembly On straight line where line, the embodiment of the present invention is not limited this.

In one implementation, the first viewing area 131, the second viewing area 132 and the 3rd viewing area 133 are adopted It is made of flexible material, there is certain flexible ductility；In another implementation, only the 3rd viewing area 133 uses Flexible material is made, and the first viewing area 131 and the second viewing area 132 are made of non-flexible material.

In a kind of optional implementation, the connection component 43 of terminal 100 uses Manual structure.User's manual separation When one housing 41 and the second housing 42, terminal 100 is changed into deployed condition from folded state；User closes up the He of the first housing 41 manually During the second housing 42, terminal 100 is changed into folded state from deployed condition.

In another optional implementation, the connection component 43 of terminal 100 uses electric structure, such as, connection group A kind of electronic rotation part of electro-motor is provided with part 43.Under the drive of electronic rotation part, the first housing 41 and Two housings 42 are realized automatically to be closed up or separates, so that terminal 100 possesses expansion and folds two states.

Divided according to whether touch display screen under folded state is exposed, terminal 100 can be divided into outer folding screen Terminal and interior folding screen terminal.Wherein：

Outer folding screen terminal

Outer folding screen terminal refers to that foldable angle is 180 °, and in a folded configuration, touch display screen is all exposed Terminal.As shown in figure 3, terminal 100 is outer folding screen terminal.Under deployed condition, the first support of the first housing 41 of terminal 100 Second supporting surface of face and the second housing 42 is flush, and (i.e. angle is 180 °, it is necessary to explanation, first in outer folding screen terminal The angle of supporting surface and the second supporting surface is the first supporting surface and the second supporting surface at the angle that the display screen offside of terminal is formed Degree), and the first viewing area 131 of touch display screen, the second viewing area 132 and the 3rd viewing area 133 are positioned at same flat Face；During terminal 100 is changed into folded state from deployed condition, as shown in figure 3, first back side of the first housing 41 and second shell Second back side of body 42 is mutually drawn close, and the angle of the first supporting surface and the second supporting surface is changed into 0 ° from 180 °；Under folded state, such as scheme Shown in 4, the first supporting surface (the first housing parallel with the second supporting surface of the second housing 42 of the first housing 41 of terminal 100 41 and second the angle of housing 42 be 0 °) so that touch display screen is in U-shaped folded state, wherein, the 3rd of touch display screen the Viewing area 133 forms exposed U-shaped cambered surface.

In a kind of optional implementation, in a folded configuration, all or part of viewing area of touch display screen is used In display user interface.For example as shown in figure 4, under folded state, only the second viewing area 132 is used to show user interface, Or, only the 3rd viewing area 133 is used to show user interface.

Interior folding screen terminal

Interior folding screen terminal refers to that foldable angle is 180 °, and in a folded configuration, touch display screen (whole or portion Point) containing terminal.As shown in figure 5, terminal 100 is interior folding screen terminal.Under deployed condition, the first housing 41 of terminal 100 The first supporting surface and the second housing 42 the second supporting surface be flush (i.e. angle be 180 °, it is necessary to explanation, interior folding screen The angle of first supporting surface and the second supporting surface in terminal, where the display screen of the first supporting surface and the second supporting surface in terminal The angle that side is formed) so that touch display screen is in planar development state (the first viewing area 131, the second viewing area 132 It is generally aligned in the same plane with the 3rd viewing area 133)；During terminal 100 is changed into folded state from deployed condition, as shown in figure 5, Second supporting surface of the first supporting surface of the first housing 41 and the second housing 42 is mutually drawn close, i.e. the first supporting surface and the second supporting surface Angle be changed into 0 ° from 180 °；Under folded state, the first supporting surface of the first housing 41 of terminal 100 and the of the second housing 42 Two supporting surfaces are parallel so that and touch display screen is in U-shaped folded state, wherein, the 3rd viewing area 133 of touch display screen Form containing U-shaped cambered surface.In a kind of optional implementation, in a folded configuration, whole viewing areas of touch display screen Domain does not show user interface.

In addition to touch display screen is set on the supporting surface in housing, first back side of the first housing 41 and/or second shell Touch display screen can also be set on second back side of body 42.When interior folding screen terminal is in folded state, the housing back of the body is arranged on The touch display screen in face is used to show user interface, the user interface that the user interface is shown with touch display screen under deployed condition It is identical or different.

In other possible implementations, the foldable angle of terminal 100 can also be 360 ° (both can with infolding or With rolled over), and in a folded configuration, the exposed or containing terminal of touch display screen, the present embodiment is not limited to this.

In terminal 100 shown in Fig. 3 to Fig. 5, the first housing 41 and the size of the second housing 42 are same or like, terminal 100 Folding mode be referred to as symmetrical fold, now fold line X can halve touch display screen.In other possible realization sides In formula, the folding mode of terminal 100 can also be asymmetric folding.During using asymmetric folding, the first housing 41 and second shell The size of body 42 can different or size differ by more than threshold value (such as 50% or 60% or 70%), accordingly, touch display screen In the area of the first viewing area 131 and the area of the second viewing area 132 differ by more than threshold value.

Schematically, as shown in fig. 6, terminal 100 is the outer folding screen terminal of asymmetric folding, the size of the first housing 41 More than the size of the second housing 42.Under folded state, the area of the first viewing area 131 is more than the face of the second viewing area 132 Product.

In Fig. 3 to 6, only so that terminal 100 includes two housing sections and one is used to connect the connection component of housing as an example (terminal is two folded structures) is schematically illustrated, in other possible implementations, terminal 100 can include n parts Housing and n-1 connection component, accordingly, 2n-1 blocks viewing area is included in the touch display screen of terminal 100, with being connected group N-1 blocks viewing area is made of flexible material corresponding to part, and so as to realize the terminal of n folded structures, the present embodiment is not added with to this To limit.

At least one miscellaneous part is additionally provided with terminal 100, at least one miscellaneous part includes：Camera, fingerprint Sensor, close to optical sensor, range sensor etc..In certain embodiments, at least one miscellaneous part is arranged on terminal 100 Front, side or the back side, for example fingerprint sensor is arranged on the back side of housing or side, that camera is arranged on into touch is aobvious The top of display screen 130.

In further embodiments, at least one miscellaneous part can be integrated in inside or the lower floor of touch display screen 130. In certain embodiments, the receiver of osteoacusis formula is arranged on to the inside of terminal 100；By other on the front panel of conventional terminal Part is integrated in Zone Full or the subregion of touch display screen 130, for example the photo-sensitive cell in camera is split as After multiple photosensitive pixels, each photosensitive pixel is integrated in the black region in touch display screen 130 in each display pixel, So that touch display screen 130 possesses image collecting function.Due at least one miscellaneous part has been integrated in into touch display screen 130 Inside or lower floor, therefore terminal 100 has higher screen accounting.

In some optional embodiments, the single side of the center of terminal 100, or two sides (such as left and right two Side), or edge touch sensing is provided with four sides (such as four, upper and lower, left and right side), the edge touch-control passes Sensor is used to detect at least one of touch operation, clicking operation, pressing operation and the slide of user on center etc. Operation.The edge touch sensing can be any one in touch sensor, heating power sensor, pressure sensor etc..With Family can apply operation on edge touch sensing, and the application program in terminal 100 is controlled.

In addition, it will be understood by those skilled in the art that the structure of the terminal 100 shown by above-mentioned accompanying drawing is not formed Restriction to terminal 100, terminal can be included than illustrating more or less parts, either combine some parts or difference Part arrangement.For example also include radio circuit, input block, sensor, voicefrequency circuit, Wireless Fidelity in terminal 100 The parts such as (WirelessFidelity, WiFi) module, power supply, bluetooth module, will not be repeated here.

Fig. 7 is a kind of method flow diagram of image-pickup method provided in an embodiment of the present invention, and this method can be used for Fig. 1 To any shown terminals of Fig. 6.As shown in fig. 7, this method can include:

Step 701, receive 3-D view shooting instruction.

Step 702, when detecting that display screen is in deployed condition, according to 3-D view shoot instruct, control multiple figures As at least two image collection assemblies in acquisition component gather two dimensional image.

Step 703, the two dimensional image collected according at least two image collection assemblies generate 3-D view.

In summary, in image-pickup method provided in an embodiment of the present invention, at least two IMAQ groups can be passed through Part gathers two dimensional image, and then generates 3-D view according to the two dimensional image of collection.Therefore, user directly can be clapped by terminal Take the photograph to obtain 3-D view, and 3-D view includes the more feature of the object being taken, and improves the shooting effect of terminal.

Fig. 8 is the method flow diagram of another image-pickup method provided in an embodiment of the present invention, and this method can be used for Terminal shown in Fig. 1 to Fig. 6 is any.As shown in figure 8, the image-pickup method can include:

Step 801, receive 3-D view shooting instruction.Perform step 802.

User, can be by carrying out corresponding operating, to cause terminal is opened to clap when needing to shoot 3-D view to terminal Camera shooting function.After terminal opens shoot function, user can continue to operate terminal, to cause terminal to generate and receive three Tie up image taking instruction.

Example, user can click on shooting push button (virtual push button of the display screen display of terminal, or end in terminal The entity button set on end), to cause terminal to receive the instruction of unlatching shoot function, and terminal can clap the unlatching The instruction of camera shooting function is defined as 3-D view shooting instruction.

Example, user can click on the shooting push button in terminal, and the finger of shoot function is opened to cause terminal to receive Order, and the instruction of the unlatching shoot function can be defined as two dimensional image shooting instruction by terminal.Afterwards, if user needs to clap 3-D view is taken the photograph, then the selection (as clicked on the virtual push button on display screen) of 3-D view shooting can be carried out in terminal, is made Obtain terminal and receive 3-D view shooting instruction.

And example, user can click on the shooting push button in terminal, can show afterwards, on the display screen of terminal multiple Option, the plurality of option can include 3-D view shooting instruction options.User can select 3-D view to shoot instruction options (such as clicking on the position that the option is shown on display screen), and then terminal is generated and receives 3-D view shooting instruction.

Whether step 802, detection display screen are in deployed condition.If detecting, display screen is in deployed condition, performs Step 804；If detecting, display screen is not in deployed condition, performs step 803.

Angle detector can be provided with terminal, for the first supporting surface of detection terminal and the second supporting surface in terminal Display screen where side angulation.After step 801, terminal can by angle detector, the first of detection terminal Whether side angulation where the display screen of supporting surface and the second supporting surface in terminal is equal to 180 degree.If the angle is equal to 180 Degree, then terminal can determine that display screen is in deployed condition；If the angle is not equal to 180 degree, terminal can determine display screen It is not in deployed condition.

Step 803, the first prompt message of display.Perform step 802.

Example, if a terminal detects that display screen is not in deployed condition, then terminal can show on a display screen One prompt message, to prompt user to deploy the display screen of terminal.Example, when terminal is in folded state, if terminal receives Shoot and instruct to 3-D view, then the first prompt message can be shown on the display screen of terminal, first prompt message can be with For：" current display screen is not deployed, please deploy display screen, to shoot 3-D view ".Optionally, if a terminal detects that display screen Deployed condition is not in, then terminal can be sent out prompt tone, to prompt user to deploy the display screen of terminal.

Step 804, according to 3-D view shoot instruct, control multiple images acquisition component at least two IMAQs Component gathers two dimensional image.Perform step 805.

Fig. 9 shows the terminal 100 during deployed condition, and incorporated by reference to Fig. 3 and Fig. 9, terminal 100 can adopt including two images Collect component 101, and a rear camera 102.Two image collection assemblies 101 can be located at the display of terminal 100 Side where screen, and one of image collection assembly can be located at the one end of the side of the second viewing area 132 away from fold line X, Another image collection assembly can be located at the one end of the side of the first viewing area 131 away from fold line X, and the two images are adopted Collect the same side that component can be located at display screen.When terminal detects that display screen is in deployed condition, terminal can be according to three Image taking instruction is tieed up, controls two image collection assembly collection two dimensional images.

Example, incorporated by reference to Fig. 3, Fig. 9 and Figure 10, when needing to shoot object W 3-D view, positioned at the first viewing area The image collection assembly of the top of domain 131 can gather object W a faces and the two dimensional image in c faces, above the second viewing area Image collection assembly can gather object W b faces and the two dimensional image in c faces.When object W is the face towards display screen When, the image collection assembly above the first viewing area 131 can gather left face two dimensional image, positioned at the second viewing area The image collection assembly of top can gather right face two dimensional image.

Step 805, the two dimensional image for obtaining the collection of at least two image collection assemblies.Perform step 806.

Example, when terminal taking be facial image when, terminal can be with two image collection assemblies in obtaining step 804 The left face two dimensional image of collection and right face two dimensional image.

Step 806, obtain default synthetic model.Perform step 807.

It should be noted that the default synthetic model can be the synthetic model of facial image, or other three The synthetic model of object is tieed up, the embodiment of the present invention is not limited thereto.Example, as two that the two dimensional image collected is face When tieing up image, terminal can obtain the synthetic model of the facial image stored in memory.

Step 807, the two dimensional image for collecting at least two image collection assemblies input synthetic model, to obtain three-dimensional Image.

Example, terminal can input the left face two dimensional image obtained in step 805 and right face two dimensional image in step In the synthetic model of 806 facial images obtained, to cause the synthetic model to left face two dimensional image and right face two dimensional image simultaneously Three-dimensional synthesis is carried out, to obtain the 3-D view of face.

In image-pickup method provided in an embodiment of the present invention, after the shoot function of terminal is opened, if user needs to clap Taking the photograph 3-D view (such as face 3-D view), then user can deploy the display screen of terminal, and be operated in terminal, with Triggering terminal receives 3-D view shooting instruction.Then, terminal can detect whether display screen is in deployed condition.If terminal Detect that display screen is in deployed condition, then can control at least two image collection assemblies gather respectively left face two dimensional image and Right face two dimensional image, and obtain the left face two dimensional image and right face two dimensional image.Afterwards, terminal can be by the two dimensional image of acquisition Input in the synthetic model of default facial image and obtain face 3-D view.If terminal detects that display screen is not in deploying shape State, then the first prompt message can be shown, to prompt user to deploy the display screen of terminal.After user deploys display screen, terminal It is able to detect that display screen is in deployed condition, and performs the shooting of the 3-D view after detecting that display screen is in deployed condition Step.

Optionally, terminal can also shoot two dimensional image by the plurality of image collection assembly.Example, Figure 11 is this hair The method flow diagram for another image-pickup method that bright embodiment provides, three are shot in the image-pickup method shown in Fig. 8 On the basis of tieing up image, as shown in figure 11, the image-pickup method can also include：

Step 1101, receive two dimensional image shooting instruction.Perform step 1102.

User, can be by carrying out corresponding operating, to cause terminal is opened to clap when needing to shoot two dimensional image to terminal Camera shooting function.After terminal opens shoot function, user can continue to operate terminal, to cause terminal to generate and receive two Tie up image taking instruction.

Example, user can click on shooting push button (virtual push button of the display screen display of terminal, or end in terminal The entity button set on end), to cause terminal to receive the instruction of unlatching shoot function, and terminal can clap the unlatching The instruction of camera shooting function is defined as two dimensional image shooting instruction.

Example, user can click on the shooting push button in terminal, and the finger of shoot function is opened to cause terminal to receive Order, and the instruction of the unlatching shoot function can be defined as 3-D view shooting instruction by terminal.Afterwards, if user needs to clap Two dimensional image is taken the photograph, then the selection (as clicked on the virtual push button on display screen) of two dimensional image shooting can be carried out in terminal, is made Obtain terminal and receive two dimensional image shooting instruction.

And example, user can click on the shooting push button in terminal, can show afterwards, on the display screen of terminal multiple Option, the plurality of option can include two dimensional image shooting instruction options, can also include 3-D view shooting instruction options.With Family can select two dimensional image shooting instruction options (such as clicking on the position that the option is shown on display screen), and then cause terminal Generate and receive two dimensional image shooting instruction.

Step 1102, detection terminal multiple images acquisition component in whether there is exposed image collection assembly.If inspection Measure in the multiple images acquisition component of terminal and exposed image collection assembly be present, then perform step 1104；If it is not detected by Exposed image collection assembly be present in the multiple images acquisition component of terminal, then perform step 1103.

After terminal receives two dimensional image shooting instruction, terminal can detect whether there is in multiple images acquisition component Exposed image collection assembly, in order to gather image using exposed image collection assembly.

Example, range sensor can be provided with terminal around multiple images acquisition component, terminal can lead to Range sensor provided around crossing each image collection assembly, detect the range sensor and barrier on its target direction Distance, and the distance is defined as to the distance of the image collection assembly and the barrier.Wherein, the barrier is located at IMAQ In the image acquisition region of component, and setting face of the target direction perpendicular to the image collection assembly in terminal.Terminal is also It may determine that whether the distance detected by each range sensor is more than or equal to pre-determined distance.If terminal by some away from From sensor detect with a distance from be more than or equal to pre-determined distance, then terminal can determine that the image around the range sensor is adopted It is exposed to collect component, exposed image collection assembly in terminal now be present.If terminal is detected by some range sensor Distance is less than pre-determined distance, then terminal can determine that the image collection assembly around the range sensor is not exposed.If it is all away from From sensor detect with a distance from be respectively less than pre-determined distance, then terminal can determine that exposed image collection assembly is not present.

And example, if terminal is the outer folding screen terminal of symmetrical fold, and the terminal is only relative positioned at display screen Two image collection assemblies of side, then when the terminal is not in folded state, terminal can determine exposed figure be present As acquisition component.When the terminal is in folded state, terminal can determine that exposed image collection assembly is not present.If eventually The interior folding screen terminal for symmetrical fold is held, and the terminal only has two image collection assemblies positioned at side where display screen, then When the terminal is not in folded state, terminal can determine exposed image collection assembly be present.When the terminal is in During folded state, terminal can determine that exposed image collection assembly is not present.

Step 1103, the second prompt message of display.Perform step 1102.

If terminal, which is not detected by, has exposed image collection assembly, it can show that the second prompting is believed on a display screen Breath, to prompt user currently without exposed image collection assembly (that is to say the image collection assembly without workable for).Seen in user To after second prompt message, user can be operated accordingly to terminal, to have image collection assembly exposed.It is optional , if terminal is not detected by display screen and exposed image collection assembly be present, terminal can be sent out prompt tone, to prompt to use Family makes image collection assembly exposed.

Example, terminal can be the outer folding screen terminal of symmetrical fold, and the terminal is only located at display screen opposite side Two image collection assemblies, and the terminal is in folded state (now two image collection assemblies are not exposed).Now, by Exposed image collection assembly can not be detected the presence of in terminal, therefore, terminal can display reminding information on a display screen, with User is prompted currently without exposed image collection assembly.User can deploy terminal after the prompt message is seen, to cause There is image collection assembly exposed.

Terminal can also be the interior folding screen terminal of symmetrical fold, and the terminal only has two positioned at side where display screen Image collection assembly, and the terminal is in folded state (now two image collection assemblies are not exposed).Now, due to terminal Exposed image collection assembly can not be detected the presence of, therefore, terminal can send prompt tone, to prompt user currently without exposed Image collection assembly.After user hears the prompt tone, terminal can be deployed, to have image collection assembly exposed.

Step 1104, shot and instructed according to two dimensional image, control exposed image collection assembly to gather two dimensional image.

Terminal can shoot instruction according to the two dimensional image received in step 1101, and what is detected in rate-determining steps 1102 is outer The image collection assembly collection two dimensional image of dew.

It should be noted that when exposed image collection assembly is multiple images acquisition component, terminal can be more at this Random (or selection according to user) selects one or more image collection assemblies in individual image collection assembly, and uses the figure As acquisition component collection two dimensional image.When exposed image collection assembly is an image collection assembly, terminal can be direct Two dimensional image is gathered using the image collection assembly.

In image-pickup method provided in an embodiment of the present invention, after the shoot function of terminal is opened, if user needs to clap Two dimensional image is taken the photograph, then user can be operated in terminal, and two dimensional image shooting instruction is received with triggering terminal.Then, Terminal can detect whether exposed image collection assembly be present, if a terminal detects that exposed image collection assembly be present, Terminal can gather two dimensional image by exposed image collection assembly；If terminal does not detect exposed IMAQ group Part, terminal can show the second prompt message, to prompt user that image collection assembly is exposed, and in user's control IMAQ After component is exposed, terminal is able to detect that exposed image collection assembly, and passes through the exposed image collection assembly collection two Tie up image.

It should be noted that the two dimensional image shooting instruction and 3-D view shooting instruction in above-described embodiment are respectively eventually What end received according to the different operating of user, and two dimensional image shooting instruction and 3-D view shooting instruction are different for two Instruction.Terminal after two dimensional image shooting instruction is received, it is necessary to detect whether exposed image collection assembly be present, and When detecting the presence of exposed image collection assembly, instruction shooting two dimensional image is shot according to the two dimensional image.Terminal is receiving To after 3-D view shooting instruction, it is also necessary to detect whether display screen is in deployed condition, and opened up detecting that display screen is in During open state, instruction shooting 3-D view is shot according to the 3-D view.

In practical application, when user is when operation is to open the shoot function of terminal in terminal, terminal can receive bat Take the photograph instruction.Afterwards, terminal can detect whether present terminal meets three-dimensional shooting condition (if whether detection display screen is in expansion State).If detecting, terminal meets three-dimensional shooting condition (such as display screen is in deployed condition), and terminal can determine previously to have connect The shooting instruction received is 3-D view shooting instruction, and instruction shooting 3-D view can be shot according to the 3-D view.If Detect that terminal is unsatisfactory for three-dimensional shooting condition (such as display screen is not in deployed condition), then terminal can be detected further currently Whether terminal meets two-dimentional shooting condition (whether there is exposed image collection assembly in such as detection terminal).If detect terminal Meet two-dimentional shooting condition (exposed image collection assembly being such as present), then terminal can determine previously received shooting instruction Shoot and instruct for two dimensional image, and instruction shooting two dimensional image can be shot according to the two dimensional image.It that is to say, in practical application Terminal can receive same shooting instruction, and according to the judged result of two-dimentional shooting condition and three-dimensional shooting condition, it is determined that Shooting instruction is 3-D view shooting instruction or two dimensional image shooting instruction.

In summary, in image-pickup method provided in an embodiment of the present invention, at least two IMAQ groups can be passed through Part gathers two dimensional image, and then generates 3-D view according to the two dimensional image of collection.Therefore, user directly can be clapped by terminal Take the photograph to obtain 3-D view, and 3-D view includes the more feature of the object being taken, and improves the shooting effect of terminal.

In addition, in image-pickup method provided in an embodiment of the present invention, multiple images acquisition component China and foreign countries can also be passed through The image collection assembly collection two dimensional image of dew so that terminal not only has the function of shooting 3-D view, and with shooting The function of two dimensional image.

Figure 12 is a kind of structural representation of image collecting device provided in an embodiment of the present invention.The image collecting device can For any shown terminals of Fig. 1 to Fig. 6, as shown in figure 12, the image collecting device 12 can include：

First receiving module 1201, for receiving 3-D view shooting instruction.

First control module 1202, during for being in deployed condition in the display screen for detecting terminal, according to 3-D view Shooting instruction, control at least two image collection assemblies collection two dimensional image in multiple images acquisition component.

Generation module 1203, the two dimensional image for being collected according at least two image collection assemblies generate graphics Picture.

Optionally, Figure 13 is the structural representation of another image collecting device provided in an embodiment of the present invention, in Figure 12 On the basis of, image collecting device 12 can also include:

Second receiving module 1204, for receiving two dimensional image shooting instruction.

Second control module 1205, adopted for exposed image in the multiple images acquisition component for detecting terminal be present When collecting component, shot and instructed according to two dimensional image, control exposed image collection assembly to gather two dimensional image.

Optionally, generation module 1203, can be used for：Obtain default synthetic model；By at least two IMAQ groups The image input synthetic model that part collects, to obtain 3-D view.

Optionally, default synthetic model can be the synthetic model of facial image, at least two image collection assembly The image collected can be facial image.

In summary, in image collecting device provided in an embodiment of the present invention, the first control module can pass through at least two Individual image collection assembly gathers two dimensional image, and then generation module can generate 3-D view according to the two dimensional image of collection.Cause This, user directly can obtain 3-D view by terminal taking, and 3-D view includes the more feature of the object being taken, Improve the shooting effect of terminal.

In addition, the second control module can also pass through image collection assembly collection two exposed in multiple images acquisition component Tie up image so that terminal not only has the function of shooting 3-D view, and with the function of shooting two dimensional image.

In the above-described embodiments, can come wholly or partly by software, hardware, firmware or its any combination real It is existing.When implemented in software, can realize in the form of a computer program product whole or in part, the computer program Product includes one or more computer instructions.When loading on computers and performing the computer program instructions, all or Partly produce according to the flow or function described in the embodiment of the present invention.The computer can be all-purpose computer, computer Network or other programmable devices.The computer instruction can be stored in the readable storage medium storing program for executing of computer, Huo Zhecong One computer-readable recording medium transmits to another computer-readable recording medium, for example, the computer instruction can Pass through wired (such as coaxial cable, optical fiber, Digital Subscriber Line) from a web-site, computer, server or data center Or wireless (such as infrared, wireless, microwave etc.) mode is transmitted to another web-site, computer, server or data center. The computer-readable recording medium can be any usable medium that computer can access or can comprising one or more With data storage devices such as the integrated server of medium, data centers.The usable medium can be magnetic medium (for example, soft Disk, hard disk, tape), optical medium, or semiconductor medium (such as solid state hard disc) etc..

It should be noted that：The image collecting device that above-described embodiment provides is when gathering image, only with above-mentioned each function The division progress of module, can be as needed and by above-mentioned function distribution by different function moulds for example, in practical application Block is completed, i.e., the internal structure of image collecting device is divided into different functional modules, with complete it is described above whole or Person's partial function.

It should be noted that embodiment of the method provided in an embodiment of the present invention can mutually join with corresponding device embodiment Examine, the embodiment of the present invention is not limited this.The sequencing of embodiment of the method step provided in an embodiment of the present invention can enter The appropriate adjustment of row, step also according to circumstances can accordingly be increased and decreased, and any one skilled in the art is in this Shen In the technical scope that please be disclosed, the method that can readily occur in change should all cover within the protection domain of the application, therefore not Repeat again.

The foregoing is only the alternative embodiment of the application, not to limit the application, it is all in spirit herein and Within principle, any modification, equivalent substitution and improvements made etc., it should be included within the protection domain of the application.

Claims (12)

1. a kind of terminal, it is characterised in that the terminal includes：Folding display screen and multiple images acquisition component；

Fold line of the terminal along the display screen is divided into multiple folding parts, and the multiple image collection assembly is positioned at described The same side of terminal, and the multiple image collection assembly includes：Image collection assembly on the different folding parts.

2. terminal according to claim 1, it is characterised in that the terminal includes：Two image collection assemblies, the end End is divided into two folding parts along the fold line of the display screen, and described two image collection assemblies are located at described two foldings respectively One end away from the fold line in folded portion.

3. terminal according to claim 2, it is characterised in that the fold line of the display screen is second-class by the display screen Point, described image acquisition component is camera.

4. terminal according to any one of claims 1 to 3, it is characterised in that the terminal also includes：Processor and it is used for Store the memory of the executable instruction of the processor；

The processor is configured as：

Receive 3-D view shooting instruction；

When detecting that the display screen is in deployed condition, shot and instructed according to the 3-D view, control the multiple figure As at least two image collection assemblies in acquisition component gather two dimensional image；

The two dimensional image collected according at least two image collection assembly generates 3-D view.

5. a kind of image-pickup method, it is characterised in that for terminal, the terminal includes：Folding display screen and multiple Image collection assembly, fold line of the terminal along the display screen are divided into multiple folding parts, the multiple IMAQ group Part is located at the same side of the terminal, and the multiple image collection assembly includes：Image on the different folding parts Acquisition component, methods described include：

Receive 3-D view shooting instruction；

When detecting that the display screen is in deployed condition, shot and instructed according to the 3-D view, control the multiple figure As at least two image collection assemblies in acquisition component gather two dimensional image；

The two dimensional image collected according at least two image collection assembly generates 3-D view.

6. according to the method for claim 5, it is characterised in that methods described also includes：

Receive two dimensional image shooting instruction；

When exposed image collection assembly in the multiple images acquisition component for detecting the terminal be present, according to the two dimension Image taking instructs, the control exposed image collection assembly collection two dimensional image.

7. the method according to claim 5 or 6, it is characterised in that described according at least two image collection assembly The two dimensional image generation 3-D view collected, including：

Obtain default synthetic model；

The image that at least two image collection assembly is collected inputs the synthetic model, to obtain the graphics Picture.

8. according to the method for claim 7, it is characterised in that

The synthetic model is the synthetic model of facial image, and the image that at least two image collection assembly collects is Facial image.

9. a kind of image collecting device, it is characterised in that for terminal, the terminal includes：Folding display screen and multiple Image collection assembly, fold line of the terminal along the display screen are divided into multiple folding parts, the multiple IMAQ group Part is located at the same side of the terminal, and the multiple image collection assembly includes：Image on the different folding parts Acquisition component, described image harvester include：

First receiving module, for receiving 3-D view shooting instruction；

First control module, during for being in deployed condition in the display screen for detecting the terminal, according to the 3-D view Shooting instruction, at least two image collection assemblies in the multiple image collection assembly are controlled to gather two dimensional image；

Generation module, the two dimensional image for being collected according at least two image collection assembly generate 3-D view.

10. image collecting device according to claim 9, it is characterised in that described image harvester also includes：

Second receiving module, for receiving two dimensional image shooting instruction；

Second control module, for exposed IMAQ group in the multiple images acquisition component for detecting the terminal be present During part, shot and instructed according to the two dimensional image, the control exposed image collection assembly collection two dimensional image.

11. the image collecting device according to claim 9 or 10, it is characterised in that the generation module, be used for：

Obtain default synthetic model；

The image that at least two image collection assembly is collected inputs the synthetic model, to obtain the graphics Picture.

A kind of 12. computer-readable recording medium, it is characterised in that instruction is stored with the computer-readable recording medium, When the instruction is being run on the processor of computer so that it is any described that the processor is able to carry out claim 5 to 8 Image-pickup method.