CN108550183A - 3D model production methods and model generating means - Google Patents

Abstract

The invention discloses a kind of 3D model production methods and model generating means, stating 3D model production methods includes：The 3D models of a target user are obtained by the model generating means；Obtain the 3D model pieces in the 3D models Zhong-1 block domain；Image procossing is done to the 3D models piece；Splice more than two 3D models pieces to form 3D model housings corresponding with the 3D models.The 3D model production methods and model generating means of the present invention can conveniently obtain the 3D models of user's whole body, and obtain and can realize the customization of clothes according to 3D modelling coats, to make model generating means realize more functions.

Description

3D model production methods and model generating means

Technical field

The present invention relates to a kind of 3D model production methods and model generating means.

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 obtain and can realize the customization of clothes according to 3D modelling coats, to realize more multi-functional 3D model production methods And model generating means.

The present invention is to solve above-mentioned technical problem by following technical proposals：

A kind of 3D model production methods, feature are, are used for a model generating means, the 3D model production methods packet It includes：

The 3D models of a target user are obtained by the model generating means；

Obtain the 3D model pieces in the 3D models Zhong-1 block domain；

Image procossing is done to the 3D models piece；

Splice more than two 3D models pieces to form 3D model housings corresponding with the 3D models.

Preferably, the 3D models include structure sheaf and pixel layer, described image processing includes adjusting the color of pixel layer And adjust 3D models chip size and shape.

Preferably, the 3D model production methods include：

Identify the position in 3D models；

3D models are intercepted to obtain a 3D submodels according to position；

3D submodels are divided into 3D model pieces by cut-off rule, the pixel of cut-off rule both sides corresponds；

Described image processing is done to a target 3D model pieces；

The adjacent 3D models piece of target 3D model pieces is spliced by the correspondence of the pixel in the target 3D Model on piece.

Preferably, the 3D model production methods include：

Identify the spatial position of the pixel of target 3D model pieces；

By the picture of the spatial position of the pixel of the adjacent 3D models piece of target 3D model pieces and target 3D model pieces Vegetarian refreshments spatial position matches.

Preferably, the model generating means include 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, model generating means further include a processing end, the model generating means obtain the 3D of a target user Model includes：

Whole 3D images that pallet is rotated target user on one week shooting pallet by the 3D video cameras are sent to the place Manage end；

Splice the pallet and rotate whole 3D images of Monday 3D video camera shooting to generate a 3D in the processing end Submodel；

The 3D submodels that the processing end splicing whole 3D video cameras obtain are to generate the 3D models.

Preferably, the 3D model production methods include：

For whole 3D images of 3D video camera shooting, the processing end identifies the feature on two adjacent 3D images Point, and two adjacent 3D images are sutured in such a way that same characteristic features point overlaps；

For two adjacent 3D submodels, the processing end identifies the characteristic point on described two 3D submodels, and will Two 3D submodels suture in such a way that same characteristic features point overlaps.

A kind of model generating means, feature are that the model generating means are for realizing 3D model systems as described above Make method.

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 3D model production methods and model generating means of the present invention can facilitate The 3D models of user's whole body are efficiently obtained, and obtains and can realize the customization of clothes according to 3D modelling coats, to Model generating means are made to realize more functions.

Description of the drawings

Fig. 1 is the structural schematic diagram of the model generating means of the embodiment of the present invention 1.

Fig. 2 is the flow chart of the 3D model production methods of the embodiment of the present invention 1.

Fig. 3 is the flow chart of the 3D model production methods of the embodiment of the present invention 2

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 model generating means, the model generating means include a pallet 11, one Support portion 12, a tumbler, 13,7 3D video cameras 14 of a supporting rod and a processing end.

In the present embodiment, the processing end is a computer, and the processing end can also be cloud server, by by data It is transmitted to cloud server, data operation is carried out 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.

Whole 3D images that the 3D video cameras are used to rotate on pallet user on one week shooting pallet are sent to the place Manage end.

The processing end is used to splice the pallet and rotates whole 3D images of Monday 3D video camera shooting to generate One 3D submodels.

The processing end 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 end identifies two Characteristic point on 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 end identifies the characteristic point on described two 3D submodels, and will Two 3D submodels suture in such a way that same characteristic features point overlaps.

The model generating means are used to obtain the 3D models of a target user.

The processing end is used to obtain the 3D model pieces in the 3D models Zhong-1 block domain.

The processing end to the 3D models piece for doing image procossing.

The processing end is for splicing more than two 3D models pieces to form 3D models corresponding with the 3D models Housing.

The size of 3D model housings is more than 3D models, therefore can be set on the 3D models.User；Utilize 3D models Housing facilitates the size for obtaining creation.

The 3D models include structure sheaf and pixel layer, and described image processing includes adjusting the color and adjusting 3D of pixel layer Model chip size and shape.

Referring to Fig. 2, using above-mentioned model generating means, the present embodiment provides a kind of 3D model production methods, including：

Whole 3D images that pallet is rotated target user on one week shooting pallet by step 100, the 3D video cameras are sent To the processing end；

Step 101, the processing end splice the pallet rotate whole 3D images that a Monday 3D video camera is shot with Generate a 3D submodels；

For whole 3D images of 3D video camera shooting, the processing end identifies the feature on two adjacent 3D images Point, and two adjacent 3D images are sutured in such a way that same characteristic features point overlaps, the present embodiment sutures successively in the above described manner 3D images are to generate the 3D submodels.

The 3D submodels that step 102, processing end splicing whole 3D video cameras obtain are to generate the 3D moulds of target user Type.

For two adjacent 3D submodels, the processing end identifies the characteristic point on described two 3D submodels, and will Two 3D submodels suture in such a way that same characteristic features point overlaps.The present embodiment in the above described manner successively suture 3D submodels with Generate 3D models.

Step 103, the 3D model pieces for obtaining the 3D models Zhong-1 block domain.

Step 104 does image procossing to the 3D models piece.

The 3D models include structure sheaf and pixel layer, and described image processing includes adjusting the color and adjusting 3D of pixel layer Model chip size and shape.

Step 105, the more than two 3D models pieces of splicing are to form 3D model housings corresponding with the 3D models.

The 3D model production methods and model generating means of the present embodiment can conveniently obtain the 3D of user's whole body Model, and obtain and can realize the customization of clothes according to 3D modelling coats, it is more to make model generating means realize Function.

Embodiment 2

The present embodiment is substantially the same manner as Example 1, the difference is that only：

The processing end is additionally operable to the position in identification 3D models, and 3D models are intercepted to obtain a 3D submodules according to position Type, and 3D submodels are divided by 3D model pieces by cut-off rule, wherein the pixel of cut-off rule both sides corresponds, then Described image processing is done to a target 3D model pieces, the adjacent 3D models piece of target 3D model pieces is finally passed through into the pixel Correspondence splice in the target 3D model on pieces.

Identification for position can be judged by the identification to characteristic point, can also by a cross section according to The secondary transversal 3D models judge the position by cross-sectional area, and e.g., the present embodiment will obtain the 3D submodels of the upper part of the body, It can be started by the position (neck) of monomer cross-sectional area minimum, to there are three cross sections, the position of intermediate horizontal interface minimum (waist) terminates.So as to obtain the submodel of the upper part of the body.

The processing end is additionally operable to the spatial position of the pixel of identification target 3D model pieces；By target 3D model pieces The spatial position of the pixel of adjacent 3D models piece matched with the pixel spatial position of target 3D model pieces.

Matched mode is to identify the spatial position of pixel, and the corresponding pixel points of adjacent 3D models piece are adjusted to described On spatial position.3D model pieces so as to keep target 3D model pieces adjacent thereto preferably splice.

Referring to Fig. 3, the present embodiment also provides a 3D model production methods, including：

Step 200, the 3D models that a target user is obtained by the model generating means.

Position in step 201, identification 3D models.

Step 202 intercepts 3D models to obtain a 3D submodels according to position.

3D submodels are divided into 3D model pieces by step 203 by cut-off rule, and the pixel one of cut-off rule both sides is a pair of It answers.

Step 201 to step 203 is to obtain the 3D model pieces in the 3D models Zhong-1 block domain.

Step 204 does described image processing to a target 3D model pieces.

Step 205 splices the adjacent 3D models piece of target 3D model pieces in institute by the correspondence of the pixel State target 3D model on pieces.

Wherein, the spatial position that step 205 passes through the pixel of identification target 3D model pieces；And by target 3D models The matched side in pixel spatial position of the spatial position and target 3D model pieces of the pixel of the adjacent 3D models piece of piece Formula splices 3D model pieces.

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 3D model production methods, which is characterized in that be used for a model generating means, the 3D model production methods packet It includes：

The 3D models of a target user are obtained by the model generating means；

Obtain the 3D model pieces in the 3D models Zhong-1 block domain；

Image procossing is done to the 3D models piece；

Splice more than two 3D models pieces to form 3D model housings corresponding with the 3D models.

2. 3D model production methods as described in claim 1, which is characterized in that the 3D models include structure sheaf and pixel Layer, described image processing include adjusting the color and adjusting 3D models chip size and shape of pixel layer.

3. 3D model production methods as described in claim 1, which is characterized in that the 3D model production methods include：

Identify the position in 3D models；

3D models are intercepted to obtain a 3D submodels according to position；

3D submodels are divided into 3D model pieces by cut-off rule, the pixel of cut-off rule both sides corresponds；

Described image processing is done to a target 3D model pieces；

The adjacent 3D models piece of target 3D model pieces is spliced by the correspondence of the pixel in the target 3D models On piece.

4. 3D model production methods as claimed in claim 3, which is characterized in that the 3D model production methods include：

Identify the spatial position of the pixel of target 3D model pieces；

By the pixel of the spatial position of the pixel of the adjacent 3D models piece of target 3D model pieces and target 3D model pieces Spatial position matches.

5. 3D model production methods as described in claim 1, which is characterized in that the model generating means include 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. 3D model production methods as claimed in claim 5, which is characterized in that model generating means further include a processing end, The 3D models that the model generating means obtain a target user include：

Whole 3D images that pallet is rotated target user on one week shooting pallet by the 3D video cameras are sent to the processing end；

Splice the pallet and rotate whole 3D images of Monday 3D video camera shooting to generate a 3D submodules in the processing end Type；

The 3D submodels that the processing end splicing whole 3D video cameras obtain are to generate the 3D models.

7. 3D model production methods as claimed in claim 6, which is characterized in that the 3D model production methods include：

For whole 3D images of 3D video camera shooting, the processing end identifies the characteristic point on two 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 end identifies the characteristic point on described two 3D submodels, and by two 3D submodels suture in such a way that same characteristic features point overlaps.

8. a kind of model generating means, which is characterized in that the model generating means are appointed for realizing in such as claim 1 to 7 One 3D model production method of meaning.