CN108564651A - Body scan data device and data creation method with data systematic function - Google Patents
Body scan data device and data creation method with data systematic function Download PDFInfo
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- CN108564651A CN108564651A CN201810158718.1A CN201810158718A CN108564651A CN 108564651 A CN108564651 A CN 108564651A CN 201810158718 A CN201810158718 A CN 201810158718A CN 108564651 A CN108564651 A CN 108564651A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06T—IMAGE DATA PROCESSING OR GENERATION, IN GENERAL
- G06T17/00—Three dimensional [3D] modelling, e.g. data description of 3D objects
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06T—IMAGE DATA PROCESSING OR GENERATION, IN GENERAL
- G06T2200/00—Indexing scheme for image data processing or generation, in general
- G06T2200/08—Indexing scheme for image data processing or generation, in general involving all processing steps from image acquisition to 3D model generation
Abstract
The invention discloses a kind of body scan data device and data creation method with data systematic function, the body scan data device include a processing module, and the body scan data device is used to generate the 3D models of a user;The processing module is used to measure the size of a target site on the 3D models;The processing module is additionally operable to obtain the size of a corresponding position according to the size of the target site, and the body scan data device prestores the correspondence of corresponding position and target site size.The body scan data device with data systematic function and data creation method of the present invention can conveniently obtain the 3D models of user's whole body, and can obtain the data information in the region that is blocked on 3D models, provide more facilities to the user.
Description
Technical field
The present invention relates to a kind of body scan data device and data creation method with data systematic function.
Background technology
3D video cameras, what is utilized is the video camera of 3D camera lenses manufacture, usually there are two tools more than pick-up lens, spacing and people
Eye spacing is close, can shoot the similar seen different images for being directed to Same Scene of human eye.Holographic 3D has 5 camera lens of disk
More than, by dot grating image Huo Ling shape raster holographics imaging can the comprehensive same image of viewing, can such as come to its border personally.
The 3D revolutions so far of First 3D video cameras are unfolded all around Hollywood weight pound sheet and important competitive sports.With
The appearance of 3D video cameras, this technology distance domestic consumer close step again.After the release of this video camera, we are from now on
3D camera lenses can be used to capture each unforgettable moment of life, such as the first step that child steps, celebration of graduating from university etc..
Usually there are two the above camera lenses for 3D video cameras.The function of 3D video cameras itself, can be by two just as human brain
Lens image is merged, and becomes a 3D rendering.These images can play on 3D TVs, and spectators wear so-called master
Dynamic formula shutter glasses may be viewed by, and can also pass through bore hole 3D display equipment direct viewing.3D shutter glasses can be with per second 60
Secondary speed enables the eyeglass fast crosstalk of left and right glasses switch.This means that each eye is it is seen that Same Scene is slightly shown not
Same picture, so brain can be thus to be the single photo presented with 3D in appreciation for it.
Existing 3D camera functions are single, can not provide more usage experiences to the user.
Invention content
The technical problem to be solved by the present invention is in order to overcome in the prior art 3D filming images terminal function it is single, can not
The defect for providing more usage experiences to the user provides a kind of 3D models that can conveniently obtain user's whole body, and
And the data information in the region that is blocked on 3D models can be obtained, providing to the user more easily has data systematic function
Body scan data device and data creation method.
The present invention is to solve above-mentioned technical problem by following technical proposals:
A kind of body scan data device with data systematic function, feature are that the body scan data device includes one
Processing module,
The body scan data device is used to generate the 3D models of a user;
The processing module is used to measure the size of a target site on the 3D models;
The processing module is additionally operable to obtain the size of a corresponding position, the body according to the size of the target site
Scanning means prestores the correspondence of corresponding position and target site size.
Preferably, the target site is neck, the corresponding position is waist, and the correspondence is that waist size is neck
Enclose size 2 times, the processing module are used to intercept the 3D human body submodels of preset ratio from the top down of 3D models, pass through
One cross section is to the both ends successively transversal 3D human bodies submodel among 3D human body submodels, and it is minimum to obtain cross-sectional area
Cross-sectional view obtains collar size described in the Zhou Changwei of cross-sectional view;
Preferably, the target site is forearm, the corresponding position is foot, and the correspondence is equal to for forearm size
The size of foot, the processing module wrist and the characteristic point of elbow for identification obtain wrist characteristic point to elbow characteristic point
The shortest distance is the forearm size.
Preferably, the processing module is used to obtain the 3D models by the correspondence of pixel number and length
Size between target point.
Preferably, the body scan data device includes a pallet, a support portion, a tumbler, a supporting rod and extremely
Few 3 3D video cameras,
The pallet is installed on by the tumbler on the support portion, and the pallet is existed by the tumbler
It is rotated around the axis horizontal of the tumbler on the support portion;
The supporting rod is perpendicular to plane where the pallet;
At least three 3D video cameras are longitudinally put on the supporting rod side by side;
The shooting direction of the 3D video cameras is from the point on the 3D video cameras to the axis.
Preferably, whole 3D images that the 3D video cameras are used to rotate on pallet user on one week shooting pallet are sent to
The processing module,
The processing module is used to splice the pallet and rotates whole 3D images of Monday 3D video camera shooting with life
At a 3D submodels;
The processing module is used to splice the 3D submodels of whole 3D video cameras acquisitions to generate the 3D models.
Preferably, for a 3D video camera shooting whole 3D images, the processing module for identification two it is adjacent
Characteristic point on 3D images, and two adjacent 3D images are sutured in such a way that same characteristic features point overlaps;
For two adjacent 3D submodels, the processing module is additionally operable to identify the feature on described two 3D submodels
Point, and two 3D submodels are sutured in such a way that same characteristic features point overlaps.
A kind of data creation method, feature are that the data creation method is filled by body scan data as described above
Set realization.
On the basis of common knowledge of the art, above-mentioned each optimum condition can be combined arbitrarily to get each preferable reality of the present invention
Example.
The positive effect of the present invention is that:The body scan data device and data with data systematic function of the present invention
Generation method can conveniently obtain the 3D models of user's whole body, and can obtain the number in the region that is blocked on 3D models
It is believed that breath, provides more facilities to the user.
Description of the drawings
Fig. 1 is the structural schematic diagram of the body scan data device of the embodiment of the present invention 1.
Fig. 2 is the flow chart of the data creation method of the embodiment of the present invention 1.
Fig. 3 is another flow chart of the data creation method of the embodiment of the present invention 1.
Specific implementation mode
It is further illustrated the present invention below by the mode of embodiment, but does not therefore limit the present invention to the reality
It applies among a range.
Embodiment 1
Referring to Fig. 1, the present embodiment provides a kind of body scan data device with data systematic function, the body scan data dress
It sets including a pallet 11, a support portion 12, a tumbler, 13,7 3D video cameras 14 of a supporting rod and a processing module.
In the present embodiment, the processing module be a computer, the processing module can also be cloud server, pass through by
Data transmission carries out data operation to cloud server, using cloud server.
The pallet is installed on by the tumbler on the support portion, and the pallet is existed by the tumbler
It is rotated around the axis horizontal of the tumbler on the support portion.
The supporting rod is perpendicular to plane where the pallet.
7 3D video cameras are longitudinally put on the supporting rod side by side.
The shooting direction of the 3D video cameras is from the point on the 3D video cameras to the axis 15.
The 3D video cameras are used to whole 3D images of a user on one week shooting pallet of pallet rotation being sent to described
Processing module.
The processing module is used to splice the pallet and rotates whole 3D images of Monday 3D video camera shooting with life
At a 3D submodels.
The processing module is additionally operable to splice the 3D submodels of whole 3D video cameras acquisitions to generate a 3D models.
Specifically connecting method is:For whole 3D images of 3D video camera shooting, the processing module identification two
Characteristic point on a adjacent 3D images, and two adjacent 3D images are sutured in such a way that same characteristic features point overlaps;
For two adjacent 3D submodels, the processing module identifies the characteristic point on described two 3D submodels, and
Two 3D submodels are sutured in such a way that same characteristic features point overlaps.
For the 3D models of a user:
The processing module is used to measure the size of a target site on the 3D models.
The processing module is additionally operable to obtain the size of a corresponding position, the body according to the size of the target site
Scanning means prestores the correspondence of corresponding position and target site size.
The target site is neck, and the corresponding position is waist, and the correspondence is that waist size is collar size
2 times.
The present embodiment also provides a kind of method specifically obtaining the collar size, and the processing module is used for from 3D moulds
Type top down interception preset ratio 3D human body submodels, then by a cross section among 3D human body submodels to two
The transversal 3D human bodies submodel successively is held, and obtains the cross-sectional view of cross-sectional area minimum, obtains the Zhou Changwei of cross-sectional view
The collar size.
The processing module is used to obtain target point on the 3D models by the correspondence of pixel number and length
Between size.
The cross-sectional area is 3D models by the profile after cross section taken, and the position of contour area minimum is neck
Position, collar can quickly be calculated by the pixel number on the profile, preset ratio described in the present embodiment
For one third.
The body scan data device of the present embodiment can be blocked in the habited preliminary judgement user of user by clothes
The size of position.
Referring to Fig. 2, using above-mentioned body scan data device, the present embodiment also provides a kind of data creation method, including:
Whole 3D images that pallet is rotated user on one week shooting pallet by step 100, the 3D video cameras are sent to institute
State processing module;
Step 101, the processing module splice whole 3D images that the pallet rotates Monday 3D video camera shooting
To generate a 3D submodels;
For whole 3D images of 3D video camera shooting, the processing module identifies the spy on two adjacent 3D images
Point is levied, and two adjacent 3D images are sutured in such a way that same characteristic features point overlaps, the present embodiment stitches successively in the above described manner
3D images are closed to generate the 3D submodels.
The 3D submodels that step 102, processing module splicing whole 3D video cameras obtain are to generate the 3D of the user
Model.
For two adjacent 3D submodels, the processing module identifies the characteristic point on described two 3D submodels, and
Two 3D submodels are sutured in such a way that same characteristic features point overlaps.The present embodiment sutures 3D submodels successively in the above described manner
To generate 3D models.
Step 103, the processing module measure the size of a target site on the 3D models.
Step 104, the processing module obtain the size of a corresponding position according to the size of the target site.
Wherein, the body scan data device prestores the correspondence of corresponding position and target site size.The target portion
Position is neck, and the corresponding position is waist, and the correspondence is 2 times that waist size is collar size.
Referring to Fig. 3, step 103 specifically includes:
Step 1031, the processing module intercept the 3D human body submodels of preset ratio from the top down of 3D models.
Step 1032, by a cross section among 3D human body submodels to the both ends successively transversal 3D human bodies submodule
Type.
Step 1033, the cross-sectional view for obtaining cross-sectional area minimum, obtain collar size described in the Zhou Changwei of cross-sectional view.
The body scan data device with data systematic function and data creation method of the present embodiment can be conveniently
The 3D models of user's whole body are obtained, and the data information in the region that is blocked on 3D models can be obtained, are provided to the user more
It is convenient.
Embodiment 2
The present embodiment is substantially the same manner as Example 1, the difference is that only:
The target site is forearm, and the corresponding position is foot, and the correspondence is the ruler that forearm size is equal to foot
It is very little, the processing module wrist and the characteristic point of elbow for identification, obtain wrist characteristic point to elbow characteristic point most short distance
From for the forearm size.
Correspondingly, the data creation method of the present embodiment includes:
The characteristic point of the processing module identification wrist and elbow, the most short distance of acquisition wrist characteristic point to elbow characteristic point
From for the forearm size.
The body scan data device with data systematic function and data creation method of the present embodiment can be conveniently
The 3D models of user's whole body are obtained, and the data information in the region that is blocked on 3D models can be obtained, are provided to the user more
It is convenient.
Although specific embodiments of the present invention have been described above, it will be appreciated by those of skill in the art that these
It is merely illustrative of, protection scope of the present invention is defined by the appended claims.Those skilled in the art is not carrying on the back
Under the premise of from the principle and substance of the present invention, many changes and modifications may be made, but these are changed
Protection scope of the present invention is each fallen with modification.
Claims (8)
1. a kind of body scan data device with data systematic function, which is characterized in that the body scan data device includes at one
Module is managed,
The body scan data device is used to generate the 3D models of a user;
The processing module is used to measure the size of a target site on the 3D models;
The processing module is additionally operable to obtain the size of a corresponding position, the body scan data according to the size of the target site
Device prestores the correspondence of corresponding position and target site size.
2. body scan data device as described in claim 1, which is characterized in that
The target site is neck, and the corresponding position is waist, and the correspondence is that waist size is the 2 of collar size
Times, the processing module is used to intercept the 3D human body submodels of preset ratio from the top down of 3D models, passes through a cross section
To the both ends successively transversal 3D human bodies submodel among 3D human body submodels, and obtain the cross section of cross-sectional area minimum
Figure, obtains collar size described in the Zhou Changwei of cross-sectional view.
3. body scan data device as described in claim 1, which is characterized in that
The target site is forearm, and the corresponding position is foot, and the correspondence is the size that forearm size is equal to foot, institute
Processing module wrist and the characteristic point of elbow for identification are stated, the shortest distance for obtaining wrist characteristic point to elbow characteristic point is institute
State forearm size.
4. body scan data device as claimed in claim 2 or claim 3, which is characterized in that the processing module is for passing through pixel
The correspondence of number and length obtains the size between target point on the 3D models.
5. body scan data device as described in claim 1, which is characterized in that the body scan data device includes a pallet, one
Support portion, a tumbler, a supporting rod and at least three 3D video cameras,
The pallet is installed on by the tumbler on the support portion, and the pallet is by the tumbler described
It is rotated around the axis horizontal of the tumbler on support portion;
The supporting rod is perpendicular to plane where the pallet;
At least three 3D video cameras are longitudinally put on the supporting rod side by side;
The shooting direction of the 3D video cameras is from the point on the 3D video cameras to the axis.
6. body scan data device as claimed in claim 5, which is characterized in that
Whole 3D images that the 3D video cameras are used to rotate on pallet user on one week shooting pallet are sent to the processing mould
Block,
The processing module is used to splice the pallet and rotates whole 3D images of Monday 3D video camera shooting to generate one
3D submodels;
The processing module is used to splice the 3D submodels of whole 3D video cameras acquisitions to generate the 3D models.
7. body scan data device as claimed in claim 6, which is characterized in that
For whole 3D images of 3D video camera shooting, the processing module spy on two adjacent 3D images for identification
Point is levied, and two adjacent 3D images are sutured in such a way that same characteristic features point overlaps;
For two adjacent 3D submodels, the processing module is additionally operable to identify the characteristic point on described two 3D submodels,
And two 3D submodels are sutured in such a way that same characteristic features point overlaps.
8. a kind of data creation method, which is characterized in that the data creation method passes through any one in such as claim 1 to 7
Body scan data device described in is realized.
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Application publication date: 20180921 |