CN105323477A - Photographing method and device - Google Patents

Abstract

Embodiments of the invention provide a photographing method and device. According to the method and the device, image data of objects within the scope of the depth of field of different focal points can be recorded in once photography without increasing hardware cost and device size, so that loss of image details of the object on the fixed single focal point is avoided, and thus a user sees more comprehensive image data. The photographing method comprises the following steps of obtaining a photographing command; moving a lens according to the photographing command; obtaining the image data in a moving process of the lens at least twice in order to obtain at least two pieces of image data; and generating an image file according to the at least two pieces of image data.

Description

A kind of photographic method and device

Technical field

The present invention relates to image processing field, particularly relate to a kind of photographic method and device.

Background technology

In shooting technology, as shown in Figure 1A, when light injects lens, lens by light-ray condensing on one point after, then with taper diffusion come.This assembles all light a bit, is just called focus 1.When taking pictures, if object 1 be imaged on focus 1 position, the image of this object obtained by these lens is clearly.Before and after focus 1, light starts to assemble and diffusion.Such as, the object 2 on object 1 front and back position, the imaging of object 3 start to thicken gradually, form a circle expanded respectively, and this circle is just called blur circle.In the middle of reality, if disperse diameter of a circle δ is less than the distinguishing ability of human eye, the fuzzy of actual imaging generation is unidentified within the specific limits, and the imaging of the object namely on this object 1 front and back position is also clearly for human eye.On object 1 front and back position, object the distance of blur-free imaging can be called the depth of field, and the imaging of the object in field depth is all clearly concerning user.

Current Autofocus Technology is widely used very much.We need when taking pictures first to focus, and namely adjust lens, and certain objects 1 is in field depth.Like this, in the photo obtained, this object 1 is more clear than the object being in other positions.Namely, this object is the main body of this photo.If object 2, not in field depth at this moment, obtain based on the photo of object 2, need again to focus.Namely, need to readjust lens, certain objects 2 is in field depth 2.

If use the common camera arrangement with automatic focusing function, user takes pictures in a photo obtaining at every turn can only a main body (supposing to only have an object in field depth) usually.If want there is multiple main body in the photo obtained at once photo taking, namely make to be in multiple objects of diverse geographic location (such as, object 1 above, object 2, object 3) all very clear in same photo, usually a large amount of lenticules can only be added between lens and imageing sensor, i.e. microlens array.The operation principle of microlens array as shown in Figure 1B.Lens and microlens array can collect the light from different directions, are equivalent to have multiple focus simultaneously, and the multiple objects being in diverse location can be made to be in field depth simultaneously.Therefore, the photo of a record different subjects can be obtained by microlens array.

Because microlens array is expensive, between lens and imageing sensor, add the manufacturing cost that microlens array can improve photographing device.In addition, increase the volume that microlens array also can increase photographing device, inconvenient user uses and carries.

Summary of the invention

Embodiments of the invention provide a kind of photographic method and device, can when not increasing hardware cost and device volume, realize the view data recording the object being positioned at diverse location in once photo taking, and each object is clear, makes user once obtain the image of more horn of plenty.

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

First aspect, embodiments provide a kind of method of taking pictures and showing for mobile phone, described mobile phone comprises lens, and described method comprises:

Obtain once photo taking instruction;

In the process performing once photo taking, described lens are moved axially along described lens according to described once photo taking instruction;

At least two positions at least twice in the moving process of described lens obtain view data, obtain at least two view data;

According to described at least two view data synthetic image files;

Receive user to the selection of the first main body of described image file, described first main body is positioned at the primary importance of described image file;

From described at least two view data, select the first view data to present to described user, described first view data is corresponding with described primary importance, and in described first view data, the object as described first main body is the most clearly.

In the first possible implementation of first aspect, described at least two positions at least twice in the moving process of described lens obtain view data, obtain at least two view data and comprise:

Mobile described lens, to primary importance, obtain the first view data; Described first view data comprise as described in the first main body the first object image ratio first depth of field position outside the clear picture of the second object; Wherein, the primary importance of described lens is corresponding with described first depth of field position, and described first depth of field position exists the first object;

Mobile described lens, to the second place, obtain the second view data; The clear picture of the first object outside image ratio second depth of field position of the second object as the second main body that described second view data comprises; Wherein, the second place of described lens is corresponding with described second depth of field position, and described second depth of field position exists the second object.

In conjunction with first aspect, or the first possible implementation of first aspect, in the implementation that the second is possible, the selection of described reception user to the first main body of described image file comprises:

Receive the slide block of user operation display screen display to primary importance, the object on the image file that the primary importance of described slide block is corresponding is described first main body.

In conjunction with first aspect, or any one possible implementation of first aspect the first to the second, in the implementation that the third is possible, after the instruction of described acquisition once photo taking and described in described basis before at least two view data synthetic image files, described method also comprises: for each described view data generates related information, described related information comprises the sequence number of view data, obtain view data time and obtain view data time lens position in any one or multiple.

In conjunction with the third possible implementation of first aspect, in the 4th kind of possible implementation, described in described basis, at least two view data synthetic image files comprise: according to the described related information synthetic image file of described at least two view data and described each view data.

In conjunction with first aspect, or any one possible implementation of first aspect the first to the second, in the 5th kind of possible implementation, described in described basis, at least two view data synthetic image files comprise: encode to described at least two view data, and according to coding after described at least two view data generate an image file.

In conjunction with first aspect the 5th kind of possible implementation, in the 6th kind of possible implementation, describedly coding carried out to described at least two view data comprise:

According to H.264 standard, described at least two view data are encoded.

In conjunction with first aspect, or first aspect first is to the 6th kind of any one possible implementation, and in the 7th kind of possible implementation, described at least twice obtains view data specifically comprises:

According to the described view data of cycle at least twice acquisition pre-set.

Second aspect, embodiments provides a kind of mobile phone, comprises starting drive, control processor, mobile device, lens, and image sensing device and image processor, is characterized in that:

Described starting drive is for obtaining once photo taking instruction and sending described once photo taking instruction to described control processor;

Described control processor, for controlling described mobile device and described image sensing device according to described once photo taking instruction;

Described mobile device, under the control of described control processor, moves axially described lens along described lens in the process performing once photo taking;

Described image sensing device, under the control of described control processor, the diverse location at least twice in the moving process of described lens obtains view data, obtains at least two view data;

Described image processor is used for according to described at least two view data synthetic image files;

Wherein, when receive user in described image file be positioned at the selection of the first main body of primary importance time,

Described mobile phone selects the first view data to present to described user from described at least two view data, and described first view data is corresponding with described primary importance, and in described first view data, the object as described first main body is the most clearly.

In the first possible implementation of second aspect,

Described mobile device moves described lens to primary importance, and described image sensing device obtains the first view data; Described first view data comprise as described in the first main body the first object image ratio first depth of field position outside the clear picture of the second object; Wherein, the primary importance of described lens is corresponding with described first depth of field position, and described first depth of field position exists the first object;

Described mobile device moves described lens to the second place, and described image sensing device obtains the second view data; The clear picture of the first object outside image ratio second depth of field position of the second object as the second main body that described second view data comprises; Wherein, the second place of described lens is corresponding with described second depth of field position, and described second depth of field position exists the second object.

In conjunction with second aspect, or the first possible implementation of second aspect, in the implementation that the second is possible, described mobile phone comprises display screen, described in receive the selection of user to the first main body of described image file and comprise:

Receive show screen display described in user operation slide block to primary importance, the object on the image file that the primary importance of described slide block is corresponding is described first main body.

In conjunction with second aspect, or any one possible implementation of second aspect the first to the second, in the implementation that the third is possible, the described related information of described each view data also for generating related information for each described view data, and is supplied to described image processor by described control processor;

Described related information comprises the sequence number of view data, obtain view data time and obtain view data time lens position in any one or multiple.

In conjunction with the third possible implementation of second aspect, in the 4th kind of possible implementation, described image processor specifically for: according to the described related information synthetic image file of described at least two view data and described each view data.

In conjunction with second aspect, or any one possible implementation of second aspect the first to the second, in the 5th kind of possible implementation, described control processor also for encoding to described at least two view data, described image processor specifically for: according to coding after described at least two view data generate an image file.

In conjunction with second aspect the 5th kind of possible implementation, in the 6th kind of possible implementation, described control processor is specifically for encoding to described at least two view data according to H.264 standard.

In conjunction with second aspect, or second aspect first is to the 6th kind of any one possible implementation, and in the 7th kind of possible implementation, described at least twice obtains view data comprises: obtain view data according to the cycle at least twice pre-set.

The third aspect, embodiments provides the control device that a kind of control is taken pictures and shown, and comprises photographing instruction receiving element, mobile control unit, image sensing device control unit, wherein:

Described photographing instruction receiving element, for obtaining the once photo taking instruction of user;

Described mobile control unit, moves axially lens for controlling mobile device according to described once photo taking instruction in the process performing once photo taking along described lens;

Described image sensing device control unit, for controlling image sensing device according to described once photo taking instruction, the diverse location at least twice of described image sensing device in the process of described lens movement is made to obtain view data, obtain at least two view data, and described at least two view data are supplied to image processor process, with synthetic image file;

Described control device also comprises:

For receiving the unit of user to the selection of the first main body of described image file, described first main body is positioned at the primary importance of described image file;

For selecting the first view data to present to the unit of described user from described at least two view data, described first view data is corresponding with described primary importance, and in described first view data, the object as described first main body is the most clearly.

In the first possible implementation of the third aspect,

Described mobile control unit controls described mobile device and moves described lens to primary importance, and described image sensing device control unit controls described image sensing device and obtains the first view data; Described first view data comprise as described in the first main body the first object image ratio first depth of field position outside the clear picture of the second object; Wherein, the primary importance of described lens is corresponding with described first depth of field position, and described first depth of field position exists the first object;

Described mobile control unit controls described mobile device and moves described lens to the second place, and described image sensing device control unit controls described image sensing device and obtains the second view data; The clear picture of the first object outside image ratio second depth of field position of the second object as the second main body that described second view data comprises; Wherein, the second place of described lens is corresponding with described second depth of field position, and described second depth of field position exists the second object.

In conjunction with the third aspect, or the first possible implementation of the third aspect, in the implementation that the second is possible, described control device also comprises related information generation unit, described related information generation unit is used for for each described view data generates related information, and the described related information of described each view data is supplied to described image processor;

Described related information comprises the sequence number of view data, obtain view data time and obtain view data time lens position in any one or multiple.

In conjunction with the implementation that third aspect the second is possible, in the implementation that the third is possible, described control device also comprises the unit for encoding to described at least two view data.

In conjunction with the third aspect, or the third aspect first is to the third any one possible implementation, and in the 4th kind of possible implementation, described at least twice obtains view data comprises: obtain view data according to the cycle at least twice pre-set.

A kind of photographic method that the embodiment of the present invention provides and device, after acquisition photographing instruction, the view data clearly of different objects is recorded by mobile lens, when not increasing hardware cost and device volume, user realizes the view data of the object recorded in once photo taking in not confocal field depth, avoid the loss of subject image details in fixing single focus, make user once obtain the image of more horn of plenty.

Accompanying drawing explanation

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

Figure 1A is schematic diagram of taking pictures in prior art;

Figure 1B is the structural representation of photographing device in prior art;

Fig. 2 is the schematic flow sheet of photographic method in the embodiment of the present invention 1;

Fig. 3 is the schematic diagram of a kind of possible implementation obtaining view data in the embodiment of the present invention 1 in lens travel;

Fig. 4 A is the schematic diagram of a kind of possible implementation of lens travel in the embodiment of the present invention 1;

Fig. 4 B is the schematic diagram of the possible implementation of the another kind of lens travel in the embodiment of the present invention 1;

Fig. 4 C is the schematic diagram of the possible implementation of the another kind of lens travel in the embodiment of the present invention 1;

Fig. 4 D is the schematic diagram of the possible implementation of the another kind of lens travel in the embodiment of the present invention 1;

Fig. 5 is the schematic diagram of a kind of possible implementation adjusting View Image File in the embodiment of the present invention 1;

Fig. 6 is the schematic diagram adjusting the possible implementation of the another kind of View Image File in the embodiment of the present invention 1;

Fig. 7 is the structural representation of a kind of mobile terminal that the embodiment of the present invention 2 provides;

Fig. 8 is a kind of structural representation that can control the control processor of taking pictures that the embodiment of the present invention 3 provides.

Embodiment

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

The term used in embodiments of the present invention is only for the object describing specific embodiment, and not intended to be limiting the present invention." one ", " described " and " being somebody's turn to do " expression correlate of the singulative used in the embodiment of the present invention and appended claims can be odd number also can be most, unless context clearly represents other implications.It is also understood that term "and/or" used herein refers to any one or all possible combination in the project listed.Should be appreciated that the term adopted " comprises " other guide representing and do not get rid of after this term outside listed content further herein.

In embodiments of the present invention, mobile terminal includes but not limited to mobile phone, personal digital assistant (PersonalDigitalAssistant, PDA), the mobile device such as panel computer, portable equipment (such as, portable computer), the embodiment of the present invention does not limit.

Embodiment 1

The embodiment of the present invention 1 provides a kind of photographic method, and as shown in Figure 2, the method comprises:

Step S101, acquisition photographing instruction.

User can, by physics or virtual starting drive, make camera arrangement obtain photographing instruction.Wherein taking pictures and be also called photograph, is use the device with camera function to be recorded by the image of object and carry out the process of preserving.Photographing instruction is exactly the instruction that the image of object is recorded by control camera arrangement.

Step S102, according to described photographing instruction mobile lens.

After getting photographing instruction, the lens in camera arrangement move according to the route preset.Be described in the mode of motor control lens movement below.Motor utilizes the Lorentz force produced between hot-wire coil and permanent magnet to come the position of mobile lens.The amount of movement of lens is directly proportional to Lorentz force, and Lorentz force is directly proportional to current strength, therefore, controls the moving range that current strength just can control lens.Should be understood that, the above-mentioned mode controlling lens movement using motor as mobile device is a kind of possible implementation in the embodiment of the present invention, not limitation of the present invention.Any those skilled in the art are in the technical scope that the present invention discloses, and change or the replacement of the motor that can expect easily all should be encompassed within protection scope of the present invention.In moving process, lens can keep identical direction, also can change direction.Such as, lens can first move along first direction and then move along second direction.Second direction can be with first party in the opposite direction.

Step S103, in the moving process of described lens at least twice obtain view data, obtain at least two view data.

Image sensing device can comprise imageing sensor and analog to digital conversion circuit.In the embodiment of the present invention, each process obtaining view data can comprise: the object be photographed is through lens in the upper imaging of imageing sensor (such as CCD or COMS), and namely imageing sensor obtains the light signal of object; Light signal is converted to the signal of telecommunication by light-electricity conversion by imageing sensor; The signal of telecommunication is become after analog to digital conversion circuit process can by the view data of image processor process.View data can be original raw formatted data.

In embodiments of the present invention, in the process of lens movement, need at least twice to obtain view data, thus obtain at least two view data.As previously described, when lens move, the position of the depth of field is also being moved.In embodiments of the present invention, the position of the depth of field corresponding when lens are positioned at a certain position is called depth of field position.Such as, as shown in Figure 3, when lens move to position 1, camera arrangement can obtain view data 1.If there is object 1 (such as, setting greatly) in the depth of field position 1 corresponding with position 1, then comprise object 1 and object 1 is more clear than other objects outside depth of field position 1 in view data 1.Now object 1 is also referred to as the main body of view data 1.When mobile lens is to position 2, camera arrangement can obtain view data 2.If there is object 1 (such as, building) in the depth of field position 2 corresponding with position 2, comprise object 2 and object 2 is more clear than other objects outside depth of field position 2 in view data 2.Now object 2 is called the main body of view data 2.

Particularly, " in the process of lens movement " can have multiple implication.Camera arrangement any stage in moving process can obtain view data, also certain moment only in moving process can obtain view data.Below for Fig. 4 A, 4B, 4C, 4D, these two kinds of modes are explained respectively.

Mode one, step S103 can comprise, and to move to the described view data of at least twice acquisition the process of terminal at described lens from starting point.Wherein, starting point is the position at lens place when obtaining described photographing instruction.The position at lens place when terminal is mobile end.Starting point and terminal can be different positions.Fig. 4 A-4D is the starting point of lens movement, several examples of terminal and route.

As shown in Figure 4 A, terminal can compared with point closer to imageing sensor, and lens move from starting point to terminal.As shown in figures 4 band 4d, terminal can compared with point further from imageing sensor, and lens also move from starting point to terminal.In Fig. 4 A-4B and 4D, lens move to terminal along identical direction from starting point, and namely, moving in the process of terminal from starting point, lens do not change moving direction.

As shown in Figure 4 C, from the process of origin-to-destination, lens also can change moving direction.Such as, lens first move to breakover point along first direction from starting point, and then move to terminal along second direction from breakover point.First direction and second direction are contrary directions.First direction can be towards the direction of imageing sensor, also can be the direction deviating from imageing sensor.Starting point can between breakover point and terminal.In addition, breakover point can be arranged on the optional position between transducer and starting point, also terminal can be arranged on the optional position between transducer and starting point.

In an embodiment of the present invention, whether each point (namely starting point is set, terminal and/or breakover point) particular location, and the concrete route of lens movement can by user when taking pictures at every turn according to needs sets itself, also can be preset by camera arrangement manufacturer.Certainly, above-mentioned position and/or route also can be set to by user the default value that can repeatedly apply.The embodiment of the present invention does not limit concrete set-up mode.

Moving in the whole process of terminal from starting point, lens at least twice obtain view data.Such as, lens can in the whole process from the origin-to-destination shown in Fig. 4 A-4C at least twice obtain view data.Correspondingly, in Fig. 3 position 1 and position 2 can be lens in the whole process from starting point to end any two positions of process.As shown in figs. 4 a-4b, if obtaining view data from first time in the process of last acquisition view data, lens are not changing moving direction, can avoid obtaining the data repeated.The mode of this acquisition view data both can save memory space, also can reduce the complexity of follow-up data process.

Mode two, step S103 can comprise, at described lens from a little at least twice acquisition data to the process of terminal of starting auction.The process a little moving to terminal from starting auction can be regarded as an example of certain moment lens travel.

If adopt the route shown in Fig. 4 C, only in the process of lens from breakover point to terminal, at least twice data can be obtained.Correspondingly, in Fig. 3 position 1 and position 2 can be lens to move to from breakover point in the process of terminal any two positions of process.Visible, if adopt the route shown in Fig. 4 C, since lens can from also only at least twice obtaining data in the process of breakover point to terminal

If adopt the route shown in Fig. 4 D, lens move to along identical direction from starting point through intermediate point the process of terminal, and camera arrangement only to move to the described view data of at least twice acquisition the process of terminal from intermediate point at lens.In Fig. 4 D, starting point is the position at lens place when obtaining described photographing instruction.The position at lens place when terminal is mobile end.Intermediate point is any position between starting point and terminal, and is not limited to the position identical with the distance of terminal with starting point.Correspondingly, the position 1 in Fig. 3 and position 2 can be lens from intermediate point to move to the process of terminal any two positions of process.

Can know from above, starting auction can be some the breakover point shown in Fig. 4 C, also can be the intermediate point shown in Fig. 4 D.Owing to obtaining view data from first time in the process of last acquisition view data, lens are not changing moving direction, can avoid obtaining the data repeated.

Above the mobile alignment of lens is described with the mobile phase that can obtain view data.Below the cycle obtaining view data is illustrated.

Optionally, in step S103, at least twice obtains view data and obtains at least two view data and specifically can comprise, and obtains view data according to predetermined period at least twice.Predetermined period can use time representation, also can represent by distance.Predetermined period can be different according to the difference of the module of Lens.For Fig. 4 C, if use the module P5V11C of Shun's space, the distance from breakover point to terminal is 3.57mm.The distance cycle can be set to 0.357mm.Therefore, in the process of lens movement from breakover point to terminal, often can move 0.357mm and obtain a view data.If module P5V11C is applied in the example of Fig. 3 and Fig. 4 C, then position 1 and position 2 are lens from breakover point to move to the process of terminal two positions of process, and the distance between position 1 and position 2 is default distance cycle 0.357mm.Predetermined period also can be the time cycle.Such as, in the moving process of movement from breakover point to terminal, a view data can be obtained every 20ms.For Fig. 3 and Fig. 4 C, position 1 and position 2 are lens from breakover point to move to the process of terminal two positions of process, and lens are from position 1, and the time moved to required for position 2 is 20ms.In embodiments of the present invention, predetermined period can be that user pre-sets, and also can be that device pre-sets, the embodiment of the present invention limit this.In embodiments of the present invention, position 1 and position 2 can also be lens from starting point to move to the process of terminal two positions of process, or from intermediate point to move to the process of terminal two positions of process.Distance between position 1 and position 2 is default distance, or lens from position 1, the time moved to required for position 2 is the default time cycle.

Alternatively, the camera arrangement in the embodiment of the present invention can also be each Imagery Data Recording related information, for the step of follow-up synthetic image file.Related information comprises the sequence number of view data, obtains position of lens etc. during time and the acquisition view data of view data.Camera arrangement can record any one or multiple information wherein.Alternatively, camera arrangement can be that each view data generates related information according to the mobile alignment information of lens (such as starting point, terminal, breakover point, intermediate point, and/or the information such as cycle) and the information such as mobile phase that can obtain view data.

Above respectively to the route of lens movement, need to obtain concrete stage of view data in the process of lens movement, obtain the cycle at data institute interval for twice, and the many aspects such as the related information of view data are illustrated.It will be understood by those skilled in the art that when designing or manufacture specific product, the arbitrary concrete mode of above either side can be selected, also can select the combination of at least two aspects.

Step S104, according to described at least two view data synthetic image files.

Optionally, described in described basis, at least two view data synthetic image files specifically comprise: encode to described at least two view data, and generate an image file according to the view data after coding.The image file that the embodiment of the present invention generates refers to the image file integrally and separately deposited

Concrete, H.264 coded system can be.H.264 be the new digital video coding standard formulated by the joint video team (JVT) of International Telecommunication Association (ITU-T) and International Organization for standardization (ISO) amalgamated consolidation.H.264 encoding and decoding flow process mainly comprises 5 parts: interframe and infra-frame prediction (Estimation), conversion (Transform) and inverse transformation, quantification (Quantization) and inverse quantization, loop filtering (LoopFilter), entropy code (EntropyCoding).

Optionally, the image file of the embodiment of the present invention is used for presenting different display effects according to the selection of user.As shown in Figure 6, the embodiment of the present invention image file can according to the selection of user display based on different objects image.In the image of display, the object as main body is the most clear.Such as, when user selects large tree 81, this image file just can show to set greatly the image into main body.In the image now shown, large tree is the most clearly.When user selects building 82, this image file just can show the image based on building.In the image now shown, building is the most clearly.

Certainly, the image file of the embodiment of the present invention can also be used for multiple object being clearly shown to user simultaneously.If for Fig. 6, the image file of the embodiment of the present invention may be used for simultaneously and equally clearly display is set greatly and building.

Optionally, user can also show the image based on different objects by the slide block 71 on operation touch-screen.As shown in Figure 5, user can adjust the real effect of image file by slide block 71.Such as, when slide block 71 is in position 711, show based on the image of the first object, and when slide block 71 is in position 712, show based on the image of the second object.Wherein, the first object and the second object are the objects that exist when obtaining photographing instruction, and the first object is less than or is greater than the distance of the second object from transducer from the distance of transducer.Slide block 71 can horizontally slip, and also can slide up and down.Should be understood that, the embodiment of the present invention can also have multiple sliding type, just illustrates here.

Camera arrangement due to the embodiment of the present invention have recorded the related information of each view data, and therefore the image file of the embodiment of the present invention can present different display effects according to the selection of user or operation.Certainly, the related information recording each view data not can present the sole mode of different display effects.Those skilled in the art it will also be appreciated that mode that is that other convert or that replace under the inspiration of the present embodiment.

A kind of photographic method that the embodiment of the present invention provides, is obtaining mobile lens after photographing instruction and at least twice is obtaining data image in moving process at lens.Like this, can when not increasing hardware cost and device volume, realize obtaining the view data comprising multiple main body in once photo taking (obtaining once photo taking instruction), thus simultaneously or can clearly present each object to user successively.

Embodiment 2

As shown in Figure 7, the embodiment of the present invention provides a kind of terminal that can take pictures, and comprises starting drive 51, control processor 52, mobile device 53, lens 54, image sensing device 55 and image processor 56.Should be understood that, the terminal in the embodiment of the present invention can comprise than more or less parts shown in Fig. 7, and Fig. 7 is a kind of exemplary explanation in order to introduce the embodiment of the present invention.

Described starting drive 51, for obtaining photographing instruction and sending photographing instruction to control processor.This starting drive can be physical button, can be the virtual key on touch-screen, can also be phonetic controller.The concrete structure of the embodiment of the present invention to starting drive does not limit.

Described control processor 52, for controlling described mobile device 53 and described image sensing device 55 according to described photographing instruction.Particularly, described control processor 52 moves described lens for controlling described mobile device 53.Control processor 52 is also for controlling described image sensing device 55, make image sensing device 55 at least twice acquisition view data in the process of lens 54 movement, obtain at least two view data, and described at least two view data are supplied to image processor 56.Image processor 56 can obtain image file according to view data.Alternatively, described control processor 52 can also generate related information for each view data and be supplied to image processor 56.Related information comprises the sequence number of view data, obtains position of lens etc. during time and the acquisition view data of view data.Control processor 52 can generate any one or multiple information wherein.Control processor can be that each view data generates related information according to the mobile alignment information of lens and the control information such as mobile phase that can obtain view data.The mobile alignment information of lens includes but not limited to such as starting point, terminal, breakover point, intermediate point, and/or the information such as cycle.Directly and/or under indirectly controlling of control processor 52, mobile device 53, lens 54, the function of image sensing device 55 and image processor 56, in embodiment 1, especially illustrates in the relevant drawings of step S102-S103 and word, repeats no more herein.Control processor 52 is control centres of terminal, can carry out integral monitoring to terminal.Such as, control processor can utilize the various piece of various interface and connection terminal, runs the software program and the corresponding data that are stored in memory, controls corresponding hardware and/or software module work, thus controls or perform the various functions of terminal.Such as, above-mentioned hardware can comprise mobile device 53, lens 54 and image sensing device 55.Above-mentioned image processor 56 can be software also can be hardware.Should be appreciated that above-mentioned functions is the part in control processor 52 function that can perform.For other functions of control processor, the embodiment of the present invention does not limit.

Described mobile device 53, under the control of described control processor 52, mobile described lens 54.Mobile device 53 can be motor.Motor is the transliteration of motor, also can be called motor or motor.As described in embodiment of the method above, motor utilizes the Lorentz force produced between hot-wire coil and permanent magnet to come the position of mobile lens.Control the moving range that current strength just can control lens.Mobile device 53 can also be electronic starter.Electronic starter is also known as starter motor.Rotor in starter motor rotates under the effect of electromagnetic induction, thus provides the power needed for mobile lens 54.Under the control of control processor, mobile device 53 can make lens move according to various mode.Such as, lens are made to move by the various modes shown in Fig. 4 A-4D.The move mode of lens, in embodiment 1, especially illustrates in the relevant drawings of step S102-S103 and word, repeats no more herein.

Lens 54 refer to mobile phone, camera, video camera, or in order to generate the optics of image in the device that can take pictures such as projector.Lens in the embodiment of the present invention can be a slice lens, the set of lenses that also can be made up of multi-disc lens.The function of set of lenses and the image-forming principle functional similarity of a slice lens, but imaging effect is better than a slice lens.Under the driving of mobile device 53, lens 54 can move according to the mode obtaining in advance or arrange.The contents such as the image-forming principle of lens and move mode, in embodiment 1, especially illustrate in the relevant drawings of step S102-S103 and word, repeat no more herein.

Described image sensing device 55, under the control of control processor 52, in the moving process of described lens 54, at least twice obtains view data.Imageing sensor in image sensing device is also called photo-sensitive cell, is the core of digital camera.The general principle of image sensing device, the related contents such as the stage obtaining view data and the cycle obtaining view data, in relevant drawings and the explanatory note of step S103, repeat no more herein.The imageing sensor of digital camera has two kinds: one is widely used CCD (ChargeCoupledDevice, electric charge lotus root is closed) element; Another kind is CMOS (ComplementaryMetal-OxideSemiconductor, CMOS (Complementary Metal Oxide Semiconductor) conductor) device.

Described image processor 56, under the control of control processor 52, according to described view data synthetic image file.Alternatively, described image processor 56 can according to the related information synthetic image file of at least two view data and each view data.The relevant drawings of step S104 and character introduction, according to the concrete grammar of view data synthetic image file and the function of image file or real effect, repeat no more herein.It will be understood by those skilled in the art that control processor in the embodiment of the present invention and image processor can be independently processors separately, also can be same processor.In addition, the image processor in the embodiment of the present invention can also be software.The concrete form of the embodiment of the present invention to control processor and image processor is not construed as limiting.

A kind of mobile terminal that the embodiment of the present invention provides, is obtaining mobile lens after photographing instruction and at least twice is obtaining data image in moving process at lens.Like this, can when not increasing hardware cost and device volume, realize obtaining the view data comprising multiple main body in once photo taking (obtaining once photo taking instruction), thus simultaneously or can clearly present each object to user successively.

Embodiment 3

As shown in Figure 8, the embodiment of the present invention provides a kind of control device that can control to take pictures, and comprises photographing instruction receiving element 61, mobile control unit 62, image sensing device control unit 63, and image processor control unit 64, wherein:

Photographing instruction receiving element 61, for obtaining the photographing instruction of user.This photographing instruction can be user by physical button, the virtual key on touch-screen or phonetic controller send.The concrete structure of the embodiment of the present invention to starting drive does not limit.

Mobile control unit 62, for controlling mobile device mobile lens 54 according to described photographing instruction.Particularly, mobile control unit can control mobile device, and lens are moved according to the mode preset under the control of mobile device.The relevant drawings of step S102-S103 and word are illustrated the move mode of lens 54, repeat no more herein.

Image sensing device control unit 63, for controlling image sensing device 55 according to described photographing instruction, make image sensing device 55 at least twice acquisition view data in the process of lens 54 movement, obtain at least two view data, and described at least two view data are supplied to image processor 56.Image processor 56 can obtain image file according to view data.。Image sensing device control unit can control image sensing device 55 and obtain view data according to the stage of presetting and/or cycle at least twice.Related content is illustrated in conjunction with relevant drawings and word in step s 103, repeats no more herein.In addition, step S104 describes the concrete grammar of image processor 56 according to view data synthetic image file, and the function of image file or real effect, repeats no more herein.

Alternatively, the control device of the embodiment of the present invention can also comprise view data related information generation unit 64.View data related information generation unit 64 is for according to the control information in mobile control unit 62 being each view data generation related information and the related information of each view data being supplied to image processor 56.The related information of view data comprises the sequence number of view data, obtains position of lens etc. during time and the acquisition view data of view data.View data related information generation unit 64 can be any one or the multiple information that each view data generates wherein.Control information comprises the mobile alignment information of lens and can obtain the information such as mobile phase of view data.The mobile alignment information of lens includes but not limited to such as starting point, terminal, breakover point, intermediate point, and/or the information such as cycle.Correspondingly, described image processor 56 can according to the related information synthetic image file of at least two view data and each view data.

Starting drive 51 involved by the embodiment of the present invention, mobile device 53, lens 54, the concrete structure of image sensing device 55 and image processor 56 and function are explained in embodiment 1 and embodiment 2, repeat no more herein.

It will be understood by those skilled in the art that control device in the embodiment of the present invention and image processor can be independently processors separately, also can be same processor.The concrete form of the embodiment of the present invention to control processor and image processor is not construed as limiting.

Control processor 52 is control centres of terminal, can carry out integral monitoring to terminal.Such as, control processor can utilize the various piece of various interface and connection terminal, runs the software program and the corresponding data that are stored in memory, controls corresponding hardware and/or software module work, thus controls or perform the various functions of terminal.Should be appreciated that above-mentioned functions is the part in control processor 52 function that can perform.For other functions of control processor, the embodiment of the present invention does not limit.

Those skilled in the art are also appreciated that above-mentioned control device can be stored in the storage medium that can read and the software code that can be performed by the processor of terminal.Correspondingly, above-mentioned instruction reception unit 61, mobile control unit 62, image sensing device control unit 63, and/or view data related information generation unit 64 can be software module.

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

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of described claim.

Claims (21)

1. for the method for taking pictures and showing of mobile phone, described mobile phone comprises lens, it is characterized in that, described method comprises:

Obtain once photo taking instruction;

In the process performing once photo taking, described lens are moved axially along described lens according to described once photo taking instruction;

At least two positions at least twice in the moving process of described lens obtain view data, obtain at least two view data;

According to described at least two view data synthetic image files;

Receive user to the selection of the first main body of described image file, described first main body is positioned at the primary importance of described image file;

From described at least two view data, select the first view data to present to described user, described first view data is corresponding with described primary importance, and in described first view data, the object as described first main body is the most clearly.

2. method according to claim 1, is characterized in that, described at least two positions at least twice in the moving process of described lens obtain view data, obtain at least two view data and comprise:

Mobile described lens, to primary importance, obtain the first view data; Described first view data comprise as described in the first main body the first object image ratio first depth of field position outside the clear picture of the second object; Wherein, the primary importance of described lens is corresponding with described first depth of field position, and described first depth of field position exists the first object;

Mobile described lens, to the second place, obtain the second view data; The clear picture of the first object outside image ratio second depth of field position of the second object as the second main body that described second view data comprises; Wherein, the second place of described lens is corresponding with described second depth of field position, and described second depth of field position exists the second object.

3. method according to claim 1 and 2, is characterized in that, the selection of described reception user to the first main body of described image file comprises:

Receive the slide block of user operation display screen display to primary importance, the object on the image file that the primary importance of described slide block is corresponding is described first main body.

4. the method according to any one of claim 1-3, it is characterized in that, after the instruction of described acquisition once photo taking and described in described basis before at least two view data synthetic image files, described method also comprises: for each described view data generates related information, described related information comprises the sequence number of view data, obtain view data time and obtain view data time lens position in any one or multiple.

5. method according to claim 4, is characterized in that, described in described basis, at least two view data synthetic image files comprise: according to the described related information synthetic image file of described at least two view data and described each view data.

6. the method according to any one of claim 1-3, it is characterized in that, described in described basis, at least two view data synthetic image files comprise: encode to described at least two view data, and according to coding after described at least two view data generate an image file.

7. method according to claim 6, is characterized in that, describedly carries out coding to described at least two view data and comprises:

According to H.264 standard, described at least two view data are encoded.

8. the method according to any one of claim 1-7, is characterized in that, described at least twice obtains view data specifically comprises:

According to the described view data of cycle at least twice acquisition pre-set.

9. a mobile phone, comprises starting drive, control processor, mobile device, lens, and image sensing device and image processor, is characterized in that:

Described starting drive is for obtaining once photo taking instruction and sending described once photo taking instruction to described control processor;

Described control processor, for controlling described mobile device and described image sensing device according to described once photo taking instruction;

Described mobile device, under the control of described control processor, moves axially described lens along described lens in the process performing once photo taking;

Described image sensing device, under the control of described control processor, the diverse location at least twice in the moving process of described lens obtains view data, obtains at least two view data;

Described image processor is used for according to described at least two view data synthetic image files;

Wherein, when receive user in described image file be positioned at the selection of the first main body of primary importance time,

Described mobile phone selects the first view data to present to described user from described at least two view data, and described first view data is corresponding with described primary importance, and in described first view data, the object as described first main body is the most clearly.

10. mobile phone according to claim 9, is characterized in that,

Described mobile device moves described lens to primary importance, and described image sensing device obtains the first view data; Described first view data comprise as described in the first main body the first object image ratio first depth of field position outside the clear picture of the second object; Wherein, the primary importance of described lens is corresponding with described first depth of field position, and described first depth of field position exists the first object;

Described mobile device moves described lens to the second place, and described image sensing device obtains the second view data; The clear picture of the first object outside image ratio second depth of field position of the second object as the second main body that described second view data comprises; Wherein, the second place of described lens is corresponding with described second depth of field position, and described second depth of field position exists the second object.

11. mobile phones according to claim 9 or 10, it is characterized in that, described mobile phone comprises display screen, described in receive the selection of user to the first main body of described image file and comprise:

Receive show screen display described in user operation slide block to primary importance, the object on the image file that the primary importance of described slide block is corresponding is described first main body.

12. mobile phones according to any one of claim 9-11, is characterized in that, the described related information of described each view data also for being that each described view data generates related information, and is supplied to described image processor by described control processor;

Described related information comprises the sequence number of view data, obtain view data time and obtain view data time lens position in any one or multiple.

13. mobile phones according to claim 12, is characterized in that, described image processor specifically for: according to the described related information synthetic image file of described at least two view data and described each view data.

14. mobile phones according to any one of claim 9-11, it is characterized in that, described control processor also for encoding to described at least two view data, described image processor specifically for: according to coding after described at least two view data generate an image file.

15. mobile phones according to claim 14, is characterized in that, described control processor is specifically for encoding to described at least two view data according to H.264 standard.

16. mobile phones according to any one of claim 9-15, is characterized in that, described at least twice obtains view data comprises: obtain view data according to the cycle at least twice pre-set.

The control device that 17. 1 kinds of control is taken pictures and shown, comprises photographing instruction receiving element, mobile control unit, image sensing device control unit, wherein:

Described photographing instruction receiving element, for obtaining the once photo taking instruction of user;

Described mobile control unit, moves axially lens for controlling mobile device according to described once photo taking instruction in the process performing once photo taking along described lens;

Described image sensing device control unit, for controlling image sensing device according to described once photo taking instruction, the diverse location at least twice of described image sensing device in the process of described lens movement is made to obtain view data, obtain at least two view data, and described at least two view data are supplied to image processor process, with synthetic image file;

Described control device also comprises:

For receiving the unit of user to the selection of the first main body of described image file, described first main body is positioned at the primary importance of described image file;

For selecting the first view data to present to the unit of described user from described at least two view data, described first view data is corresponding with described primary importance, and in described first view data, the object as described first main body is the most clearly.

18. control device according to claim 17, is characterized in that,

Described mobile control unit controls described mobile device and moves described lens to primary importance, and described image sensing device control unit controls described image sensing device and obtains the first view data; Described first view data comprise as described in the first main body the first object image ratio first depth of field position outside the clear picture of the second object; Wherein, the primary importance of described lens is corresponding with described first depth of field position, and described first depth of field position exists the first object;

Described mobile control unit controls described mobile device and moves described lens to the second place, and described image sensing device control unit controls described image sensing device and obtains the second view data; The clear picture of the first object outside image ratio second depth of field position of the second object as the second main body that described second view data comprises; Wherein, the second place of described lens is corresponding with described second depth of field position, and described second depth of field position exists the second object.

19. control device according to claim 17 or 18, it is characterized in that, described control device also comprises related information generation unit, described related information generation unit is used for for each described view data generates related information, and the described related information of described each view data is supplied to described image processor;

Described related information comprises the sequence number of view data, obtain view data time and obtain view data time lens position in any one or multiple.

20. control device according to claim 19, is characterized in that, described control device also comprises the unit for encoding to described at least two view data.

21. control device according to any one of claim 17-20, is characterized in that, described at least twice obtains view data comprises: obtain view data according to the cycle at least twice pre-set.