CN104065943A - 3d Image Capture Method And Related Electronic Device Thereof - Google Patents
3d Image Capture Method And Related Electronic Device Thereof Download PDFInfo
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- CN104065943A CN104065943A CN201410100697.XA CN201410100697A CN104065943A CN 104065943 A CN104065943 A CN 104065943A CN 201410100697 A CN201410100697 A CN 201410100697A CN 104065943 A CN104065943 A CN 104065943A
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Abstract
The invention provides a 3D image capture method and a related electronic devcie thereof. The three-dimensional (3D) image capture method, employed in an electronic device with a monocular camera and a 3D display, includes at least the following steps: while the electronic device is moving, deriving a 3D preview image from a first preview image and a second preview image generated by the monocular camera, and providing 3D preview on the 3D display according to the 3D preview image, wherein at least one of the first preview image and the second preview image is generated while the electronic device is moving; and when a capture event is triggered, outputting the 3D preview image as a 3D captured image. With the 3D image capture method and the related electronic device thereof, user experience of 3D image capturing can be improved.
Description
Technical field
The invention relates to a kind of electronic installation of catching the method for image and catching image, particularly relevant for a kind of 3D rendering catching method and related electronic device that utilizes three-dimensional (three-dimensional, hereinafter to be referred as the 3D) preview (function) of the preview image that S.L.R produces.
Background technology
Along with scientific and technological development, user is just pursuing solid and more real image shows rather than high resolution image.The main theory that 3-D view is play is to make left eye and right eye see different images, thus brain by from two soon to different images be considered as 3D rendering.
During 3D rendering acquisition procedure, before producing 3D rendering, user cannot obtain the 3D rendering preview (function) of 3D rendering.That is to say, producing and merging after two two dimensional images, must confirm that 3D rendering catches result.Therefore, at electronic installation, be also equipped with in the situation of 3D display, under two-dimentional preview mode, produce two two dimensional images, and the 3D rendering of catching is only presented on the 3D display in play mode.The experience that user uses electronic installation to catch 3D rendering is very poor.In addition, the 3D rendering of catching may be violated stereoscopic vision, and causes visual fatigue when the 3D rendering of display capture.
Summary of the invention
In view of this, the electronic installation that the present invention proposes a kind of 3-D view catching method and catches for 3-D view.
According to first embodiment of the invention, a kind of three-dimensional (three-dimensional, 3D) image-capturing method is provided, the method is applied to have in the electronic installation of S.L.R and 3D display.This exemplary 3D rendering catching method comprises at least following steps: when this electronic installation moves, the first preview image and the second preview image that from this S.L.R, produce are obtained 3D preview image, and provide 3D preview on this 3D display according to this 3D preview image, wherein, when this electronic installation moves, produce at least one in this first preview image and this second preview image; When triggering capturing events, export this 3D preview image and catch image as 3D.
According to second embodiment of the invention, provide a kind of electronic installation of catching for 3-D view.This exemplary electronic device comprises S.L.R, 3D display, controller.When this electronic installation moves, the first preview image and the second preview image that this controller produces from this S.L.R are obtained 3D preview image, this controller is controlled this 3D display to provide 3D preview according to this 3D preview image, wherein, when this electronic installation moves, produce at least one in this first preview image and this second preview image.When triggering capturing events, this controller is exported this 3D preview image and is caught image as 3D.
3-D view catching method proposed by the invention and the electronic installation of catching for 3-D view, can promote user's experience of catching 3D rendering.
Accompanying drawing explanation
Fig. 1 is according to the calcspar of the electronic installation with 3D rendering capturing function of embodiment of the present invention.
Fig. 2 is according to the flow chart of the first 3D rendering catching method of embodiment of the present invention.
Fig. 3 is the schematic diagram that the electronic installation shown in Fig. 1 is carried out the first operation scheme of 3D rendering capturing function.
The schematic diagram of Fig. 4 A~Fig. 4 C for operating according to the self-recision that utilizes single image curved conversion of embodiment of the present invention.
Fig. 5 is the schematic diagram that electronic installation has the first execution mode of right-hand part translation.
Fig. 6 is the schematic diagram that electronic installation has the second execution mode of left side translation.
Fig. 7 is according to the flow chart of the second 3D rendering catching method of embodiment of the present invention.
Fig. 8 is the schematic diagram that the electronic installation shown in Fig. 1 is carried out the second operation scheme of 3D rendering capturing function.
Fig. 9 is according to the flow chart of the 3rd 3D rendering catching method of embodiment of the present invention.
Figure 10 is according to the flow chart of the 4th 3D rendering catching method of embodiment of the present invention.
Embodiment
In the middle of specification and claims, used some vocabulary to censure specific element.It will be appreciated by those skilled in the art that electronic equipment set manufacturer may call same element with different nouns.This specification and claims book is not usingd the difference of title as the mode of distinguishing element, but usings the difference of element in function as the criterion of distinguishing.In the whole text, in the middle of specification and claims, be open term mentioned " comprising ", therefore should be construed to " comprise but be not limited to ".In addition, " coupling " word in this case comprises directly any and is indirectly electrically connected means.Therefore, if describe first device in literary composition, be coupled to the second device, represent that described first device can directly be electrically connected in described the second device, or be indirectly electrically connected to described the second device by other devices or connection means.
Before main concept of the present invention is the 3D rendering of catching in output, provide 3D preview (that is, 3D preview function) to user, therefore realize What You See Is What You Get.Because user can perception (perceive) arrive 3D preview between 3D rendering trapping period, therefore promoted the user who uses electronic installation to catch 3D rendering and experienced.In addition, the further carries out image correction of the present invention is so that 3D rendering capturing function meets stereoscopic vision demand, thereby the visual fatigue of avoiding/relax the 3D rendering of display capture to cause.The details of proposed 3D rendering Acquisition Scheme will be further described below.
According to the embodiment of the present invention, 3D rendering catching method comprises: when electronic installation moves, the left side producing from S.L.R is obtained 3D preview image depending on preview image (left-view preview image) and the right side depending on preview image (right-viewpreview image), and provide 3D preview on 3D display according to 3D preview image, wherein, when electronic installation moves, produce a left side and look at least one in preview image depending on preview image and the right side; And when triggering capturing events, output 3D preview image is as 3 D captured image.
Fig. 1 is according to the calcspar of the electronic installation with 3D rendering capturing function of embodiment of the present invention.Electronic installation 100 can be portable equipment (for example, mobile phone or notebook computer).In this execution mode, electronic installation 100 comprises S.L.R 102,3D display 104, controller 106, storage device 107 and the movable sensor 108 that can select (optional).Controller 106, be coupled to S.L.R 102 and 3D display 104, wherein when electronic installation 100 moves, controller 106 is obtained 3D preview image, and according to 3D preview image, controller 106 is controlled 3D display 104 3D preview is provided, and wherein, when electronic installation 100 moves, produces a left side and looks at least one in preview image depending on preview image and the right side; And when triggering capturing events, controller 106 output 3D preview images are caught image as 3D.This S.L.R 102 is used for producing a left side at different time points and looks preview image depending on preview image and a right side.A left side of catching depending on preview image and the right side of catching, depending on preview image, be stored to respectively the left view that is positioned at storage device 107 as buffer BUF_L and right view as buffer BUF_R.When this electronic installation 100 operates in 3D preview mode, controller 106 is controlled this 3D display 104, to look preview image depending on preview image and the right side of having caught and show 3D preview (that is, providing 3D preview function) according to being stored in a left side of having caught in storage device 107.For instance, graphical user interface (graphical user interface is expressed as GUI in graphic) 109 can be shown on this 3D display 104, to receive user, inputs and shows 3D preview (that is, providing 3D preview function).In this execution mode, this electronic installation 100 is only equipped with a S.L.R 102, and S.L.R 102 only can be caught single two dimension (two-dimensional, 2D) image.Therefore,, in order to obtain 3D rendering, graphical user interface 109 can show that information moves this electronic installation 100 with guiding user, makes this S.L.R 102 can catch in different positions other 2D image.At electronic installation 100, be equipped with in the situation of movable sensor 108, movable sensor 108 can provide the mobile message (that is, with S.L.R 102 relevant mobile message) relevant with electronic installation 100 to this controller 106, to be beneficial to 3D rendering prize procedure.
Please refer to Fig. 2 and Fig. 3.Fig. 2 is according to the flow chart of the first 3D rendering catching method of embodiment of the present invention.Fig. 3 is the schematic diagram that the electronic installation 100 shown in Fig. 1 is carried out the first operation scheme of 3D rendering capturing function.When electronic installation 100 is static, user's touching has the 3D display 104 of touch controllable function with input user's input.In step 202, controller 106 receives the first preview image IMG that determines/produce from S.L.R 102
1.Then,, in step 204, controller 106 starts 3D preview mode, and stores this first preview image IMG
1to the left view that is arranged in storage device 107 as buffer BUF_L and right view as buffer BUF_R.Graphical user interface 109 indicating users start electronic apparatus 100.When electronic installation 100 moves, S.L.R 102 determines/produces a second preview image IMG automatically
t, and need not user get involved (step 206).As shown in Figure 3, when electronic installation 100 moves, the first preview image IMG
1fix.In other words, in this execution mode, the first preview image IMG that S.L.R 102 is caught
1by left view picture or the right view picture of the direct 3D rendering as producing.
In step 208,106 couples of the second preview image IMG of controller
tcarries out image correction is so that from the first preview image IMG
1and the second preview image IMG
tthe 3D preview image of obtaining meets stereoscopic vision demand, and by the second preview image IMG
tbe stored in right view in storage device 107 as in buffer BUF_R.In another embodiment of the present invention, according to the analysis of mobile camera moving, also can be by the first preview image IMG
1be stored in right view in storage device 107 as in buffer BUF_R, the second preview image IMG
tbe stored in left view in storage device 107 as in buffer BUF_L.According to the embodiment of the present invention, but not as limit, the available self-recision (self-rectification) of single image curved conversion (single-image warping) that utilizes is adjusted solid geometry shape (stereo geometry).
Please refer to Fig. 4 A~Fig. 4 C, the schematic diagram of Fig. 4 A~Fig. 4 C for operating according to the self-recision that utilizes single image curved conversion (warping) of embodiment of the present invention.Suppose the first preview image IMG
1for left view picture.As shown in Figure 4 A, ideally, user moves horizontally electronic installation 100, the second preview image IMG that S.L.R 102 is produced
t(it is right view picture) and the first preview image IMG
1(it is left view picture) can be regarded as two images that two desirable parallel cameras produce.Yet when electronic installation 100 moves, user may rotate electronic installation 100.Therefore, as shown in Figure 4 B, compared to the first preview image IMG
1, the second preview image IMG
tmay have geometry deformation.This can cause 3D rendering may violate stereoscopic vision.Therefore, with adjust/curved conversion of image correction program the second preview image IMG
tso that the second preview image IMG
tgeometric match the first preview image IMG
1geometry.Clear and definite as shown in Figure 4 C, the self-recision that utilizes single image curved conversion scheme proposing is to utilize the first preview image IMG
1remain unchanged and change the second preview image IMG
t.Therefore, as the first preview image IMG with reference to image
1can limit the second preview image IMG
tcontinuously change.Finally, can find best solution, so that the 3D rendering producing meets stereoscopic vision demand, the 3D rendering wherein producing is from the first preview image IMG
1(from S.L.R 102, initially producing) and the second preview image IMG
t(by adjust/curved conversion of image correction) obtains.In other words, image correction is equivalent to real-time online stereoscopic camera and proofreaies and correct (real-time online stereo camera calibration).
It should be noted, when electronic installation 100 is equipped with movable sensor 108, the mobile message that the image correction that controller 106 is carried out can provide with reference to movable sensor 108.That is to say, can use extra mobile message, to be conducive to the calculating (single-image self-rectificationcomputation) of single image self-recision.
In step 210, controller 106 checks whether need image exchange (image permutation).Please refer to Fig. 5 and Fig. 6.Fig. 5 is the schematic diagram that electronic installation 100 has the first execution mode of right-hand part (right-hand size, RHS) translation (panning).Fig. 6 is the schematic diagram that electronic installation 100 has the second execution mode of left side (left-handsize, LHS) translation.When electronic installation 100 has right-hand part translation, the first preview image IMG
1for left view picture, and the second preview image IMG
tfor right view picture.Suppose that controller 106 is initially by the first preview image IMG
1be considered as left view picture.Therefore, controller 106 is by the first preview image IMG
1and the second preview image IMG
tbe stored to respectively left view as buffer BUF_L and right view as buffer BUF_R.Do not need swap image (image permutation).Yet, when electronic installation 100 has left side translation, the first preview image IMG
1for right view picture and the second preview image IMG
tfor left view picture.Suppose that controller 106 is initially by the first preview image IMG
1be considered as left view picture.Therefore, need swap image to guarantee the first preview image IMG
1correct is stored to left view as buffer BUF_L and the second preview image IMG
tcorrect is stored to right view as buffer BUF_R.
According to an embodiment of the invention, controller 106 is analyzed the first preview image IMG
1and the second preview image IMG
tto detect hand-held movement, and follow automatic decision the first preview image IMG
1for left view picture or right view picture.According to another embodiment of the present invention, electronic installation 100 is equipped with movable sensor 108, the mobile message that the image exchange (image permutation) that controller 106 is carried out provides with reference to movable sensor 108.
When judgement needs swap image, controller 106 exchange the first preview image IMG
1and the second preview image IMG
tso that left view has correct image storage in wherein (step 212) as buffer BUF_L and right view as buffer BUF_R.When judgement does not need swap image, the first preview image IMG
1and the second preview image IMG
tcorrect be stored in left view as buffer BUF_L and right view as in buffer BUF_R.By this way, produce 3D rendering IMG
3D, and by 3D rendering IMG
3Dbe stored in storage device 107, wherein 3D rendering IMG
3Dfrom the first preview image IMG
1and the second preview image IMG
tobtain (step 214).
Then, controller 106 is controlled 3D display 104 and is stored in the 3D rendering IMG in storage device 107 with basis
3Dshow 3D preview (that is, providing 3D preview function) (step 216).Therefore,, during 3D rendering prize procedure, user can perceive 3D rendering IMG
3Dactual 3D effect.Next, judge whether to trigger capturing events (step 218).In this execution mode, the result based on 3D preview, user can manually judge whether current 3D rendering IMG
3Dshould be outputted as the 3D rendering of catching.For instance, when user wants current 3D rendering IMG
3Dfor catch 3D rendering time, user can touch the 3D display 104 with touch controllable function and trigger capturing events with input user's input.Therefore, the 3D rendering that output is caught, the 3D rendering of wherein catching is from the first preview image IMG
1and the second preview image IMG
tobtain (step 220).
Yet, if user does not want current 3D rendering IMG
3Dwhile being chosen as the 3D rendering of catching, user keeps electronic apparatus 100 and need not trigger capturing events.Therefore, flow process proceeds to step 206 to produce new preview image by use S.L.R 122.Wherein, new preview image upgrades the second preview image IMG
t.In other words, before user triggers capturing events, when electronic installation 100 moves, the second preview image IMG
tto be continuously updated.As shown in Figure 3, when electronic installation 100 moves to primary importance in time T 1, produce a second preview image IMG
t.If user does not like from the first fixing preview image IMG
1and the second current preview image IMG
tthe 3D effect that the 3D rendering of obtaining presents, produces the second preview image IMG of a renewal at electronic installation 100 S.L.R 102 when time T 2 moves to the second place
t.If user does not still like from the first fixing preview image IMG
1and the second current preview image IMG
tthe 3D effect that the 3D rendering of obtaining presents, produces the second preview image IMG of a renewal at electronic installation 100 S.L.R 102 when time T 3 moves to the 3rd position
t.Similar, if user does not still like from the first fixing preview image IMG
1and the second current preview image IMG
tthe 3D effect that the 3D rendering of obtaining presents, produces the second preview image IMG of a renewal at electronic installation 100 S.L.R 102 when time T 4 moves to the 4th position
t.In time T 4, user is now satisfied with the first fixing preview image IMG
1and the second current preview image IMG
tthe 3D effect that the 3D rendering of obtaining presents.Therefore, user is by manually selecting to trigger capturing events.In this way, be stored in the 3D rendering output of storage device 107 as the 3D rendering of catching, and 3D rendering that can display capture when electronic installation 100 operates in play mode after a while.
In the above-described embodiment, user utilizes manual selection to trigger capturing events.For instance, user can touch the 3D display with touch controllable function.Or user can trigger capturing events and contact electronic installation 100 without entity.For instance, electronic installation 100 is set as supporting Sound control function.Therefore, user can trigger capturing events by sound import instruction.
In another embodiment, can automatically trigger capturing events and get involved without user.For instance, controller 106 can use a kind of Auto-Sensing program, to check whether meet 3D quality requirement.Please refer to Fig. 7 and Fig. 8.Fig. 7 is according to the flow chart of the second 3D rendering catching method of embodiment of the present invention.Fig. 8 is the schematic diagram that the electronic installation 100 shown in Fig. 1 is carried out the second operation scheme of 3D rendering capturing function.The main difference of 3D rendering catching method shown in Fig. 2 and Fig. 7 is inserting step 717 between step 216 and step 218.In step 717, controller 106 is carried out Auto-Sensing program to judge whether triggering capturing events.More particularly, controller 106 automatic inspections are from the first fixing preview image IMG
1and the second current preview image IMG
tthe 3D quality that the 3D rendering of obtaining presents.For instance, 3D quality can comprise the standard (for example, comprising how much, color, definition etc.) of one or more quality correlation factors.As the first preview image IMG from fixing
1and the second current preview image IMG
twhen the 3D quality that the 3D rendering of obtaining presents meets 3D quality requirement, Auto-Sensing program triggers capturing events (step 218) automatically.Therefore, the 3D rendering that automatically output is stored in this storage device 107 is as the 3D rendering of catching, and 3D rendering (step 220) that can display capture when electronic installation 100 operates in play mode after a while.Yet, as the first preview image IMG from fixing
1and the second current preview image IMG
twhen the 3D non-conformity of quality that the 3D rendering of obtaining presents closes 3D quality requirement, flow process proceeds to step 206 to produce new preview image to upgrade the second current preview image IMG
t.As shown in Figure 8, until electronic installation 100, when time T 4 moves to the 4th position, just meets 3D quality requirement.Therefore, automatically select from the first fixing preview image IMG
1and the second preview image IMG
tthe 3D rendering that (it produces in time T 4) obtained, and export 3D rendering as the 3D rendering of catching.
In the above-described embodiment, when electronic installation 100 moves under 3D preview mode, the first preview image IMG
1fix.Yet, according to another embodiment of the present invention, when electronic installation 100 moves under 3D preview mode, produce the first preview image and the second preview image that are used for forming the 3D rendering of catching.Specifically, when electronic installation 100 moves, continuous renewal the first preview image and the second preview image.During 3D rendering prize procedure, complete equally and give the user awareness 3D object of preview.Above-mentioned execution mode also falls into the present invention's category.
Please refer to Fig. 9, Fig. 9 is according to the flow chart of the 3rd 3D rendering catching method of embodiment of the present invention.When electronic installation 100 is static, user's touching has the 3D display 104 of touch controllable function with input user's input.In step 902, controller 106 starts 3D preview mode.Graphical user interface 109 indicating users start electronic apparatus 100.When electronic installation 100 moves, S.L.R 102 produces a first preview image IMG automatically in different time points
t1an and second preview image IMG
t2(step 904, step 906).In this execution mode, producing the second preview image IMG
t2produce the first preview image IMG before
t1.Under 3D preview mode, the first preview image IMG
t1by the renewal by continuous.The first preview image IMG
t1replace above-mentioned the first fixing preview image IMG
1.About the second preview image IMG
t2, due to the second preview image IMG
t2with the second above-mentioned preview image IMG
tunder 3D preview mode all by the renewal by continuous, the second preview image IMG
t2similar in appearance to the second above-mentioned preview image IMG
t.Identical with the step shown in Fig. 2 in Fig. 9 following step.Therefore,, when not triggering capturing events, flow process goes to step 904.In addition, when electronic installation 100 moves, S.L.R 102 upgrades the first preview image IMG at different time points
t1and the second preview image IMG
t2(step 904, step 906).Until while triggering capturing events, 3D rendering prize procedure just stops upgrading the first preview image IMG
t1and the second preview image IMG
t2.When triggering capturing events, select to be stored in the 3D rendering of storage device 107, and using 3D rendering as the 3D rendering output of catching.
Please refer to Figure 10, Figure 10 is according to the flow chart of the 4th 3D rendering catching method of embodiment of the present invention.The main difference of 3D rendering catching method shown in Fig. 9 and Figure 10 is inserting step 717 between step 216 and step 218.Step 717 is for carrying out Auto-Sensing program to judge whether triggering capturing events.Because those skilled in the art are after reading above-mentioned paragraph, can understand the details of the step that is shown in Figure 10, therefore, for succinct the omission further of content described.
In a word, the invention provides suitable graphical user interface, when having the electronic installation of S.L.R and operate in preview mode, graphical user interface shows 3D preview, the 3D rendering that therefore can allow user shoot easily.The electronic installation proposing (for example, mobile phone or notebook computer) can provide real-time 3D rendering preview and current 3D rendering broadcasting, therefore promotes user's experience.
Although the present invention discloses as above with better embodiment, yet must understand it not in order to limit the present invention.On the contrary, any those skilled in the art, without departing from the spirit and scope of the present invention, when doing a little change and retouching, so protection scope of the present invention should be as the criterion with the protection range that claims were defined.
Claims (20)
1. a 3-D view catching method, is characterized in that, this 3-D view catching method is applied to have in the electronic installation of S.L.R and three dimensional display, and this 3-D view catching method comprises:
When this electronic installation moves, the first preview image and the second preview image that from this S.L.R, produce are obtained dimensional preview image, and provide dimensional preview on this three dimensional display according to this dimensional preview image, wherein, when this electronic installation moves, produce at least one in this first preview image and this second preview image; And
When triggering capturing events, export this dimensional preview image as 3 D captured image.
2. 3-D view catching method according to claim 1, is characterized in that, when this electronic installation is static, produces this first preview image, and when this electronic installation moves, produces this second preview image.
3. 3-D view catching method according to claim 2, it is characterized in that, before producing this second preview image, produce this first preview image, when this electronic installation moves, fix this first preview image, and upgrade continuously this second preview image by this S.L.R.
4. 3-D view catching method according to claim 1, is characterized in that, when this electronic installation moves, produces this first preview image and this second preview image.
5. 3-D view catching method according to claim 4, is characterized in that, when this electronic installation moves, by this S.L.R, upgrades continuously this first preview image and this second preview image.
6. 3-D view catching method according to claim 1, is characterized in that, when this electronic installation moves, by this S.L.R, automatically produces at least one in this first preview image and this second preview image, and need not user get involved.
7. 3-D view catching method according to claim 1, is characterized in that, the step that obtains this dimensional preview image from this first preview image and this second preview image comprises:
To this second preview image carries out image correction, so that this dimensional preview image meets stereoscopic vision demand; And
According to initial this first preview image producing of this S.L.R and this second preview image of this image correction adjustment, produce this dimensional preview image.
8. 3-D view catching method according to claim 7, is characterized in that, this electronic installation further comprises movable sensor, the mobile message that this image correction provides with reference to this movable sensor.
9. 3-D view catching method according to claim 1, is characterized in that, the step that obtains this dimensional preview image from this first preview image and this second preview image comprises:
To this first preview image and the exchange of this second preview image carries out image, to produce this dimensional preview image.
10. 3-D view catching method according to claim 9, is characterized in that, this electronic installation further comprises movable sensor, the mobile message that this image exchange provides with reference to this movable sensor.
11. 1 kinds of electronic installations of catching for 3-D view, is characterized in that, comprising:
S.L.R;
Three dimensional display; And
Controller, be coupled to this S.L.R and this three dimensional display, wherein when this electronic installation moves, the first preview image and the second preview image that this controller produces from this S.L.R are obtained dimensional preview image, and according to this dimensional preview image, this controller is controlled this three dimensional display dimensional preview is provided, and wherein, when this electronic installation moves, produces at least one in this first preview image and this second image; And when triggering capturing events, this controller is exported this dimensional preview image as 3 D captured image.
12. electronic installations of catching for 3-D view according to claim 11, is characterized in that, when this electronic installation is static, produce this first preview image, and when this electronic installation moves, produce this second preview image.
13. electronic installations of catching for 3-D view according to claim 12, it is characterized in that, before producing this second preview image, produce this first preview image, when this electronic installation moves, fix this first preview image, and upgrade continuously this second preview image by this S.L.R.
14. electronic installations of catching for 3-D view according to claim 11, is characterized in that, when this electronic installation moves, produce this first preview image and this second preview image.
15. electronic installations of catching for 3-D view according to claim 14, is characterized in that, when this electronic installation moves, by this S.L.R, upgrade continuously this first preview image and this second preview image.
16. electronic installations of catching for 3-D view according to claim 11, it is characterized in that, when this electronic installation moves, by this S.L.R, automatically produce at least one in this first preview image and this second preview image, and need not user get involved.
17. electronic installations of catching for 3-D view according to claim 11, is characterized in that,
This controller is further to this second preview image carries out image correction, so that this dimensional preview image meets stereoscopic vision demand,
Wherein, according to initial this first preview image producing of this S.L.R and this second preview image of this image correction adjustment, produce this dimensional preview image.
18. electronic installations of catching for 3-D view according to claim 17, is characterized in that, further comprise mobile detection device, the mobile message that this image correction that wherein this controller is carried out provides with reference to this mobile detection device.
19. electronic installations of catching for 3-D view according to claim 11, is characterized in that, this controller is to this first preview image and the exchange of this second preview image carries out image, to produce this dimensional preview image.
20. electronic installations of catching for 3-D view according to claim 19, is characterized in that, further comprise: movable sensor, the mobile message that this image exchange that wherein this controller is carried out provides with reference to this movable sensor.
Applications Claiming Priority (4)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US201361803517P | 2013-03-20 | 2013-03-20 | |
| US61/803,517 | 2013-03-20 | ||
| US14/173,826 | 2014-02-06 | ||
| US14/173,826 US9967549B2 (en) | 2013-03-20 | 2014-02-06 | 3D image capture method with 3D preview of preview images generated by monocular camera and related electronic device thereof |
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| CN104065943A true CN104065943A (en) | 2014-09-24 |
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