CN102014291A - Method for generating left-eye and right-eye picture pair at horizontal view angle of camera larger than 180 degrees - Google Patents

Abstract

The invention discloses a method for generating a left-eye and right-eye picture pair at a horizontal view angle of a camera larger than 180 degrees in stereo display, which comprises the following steps of: (1) in a three-dimensional drawing system, setting a three-dimensional scene, camera parameters and a parallax value in the stereo display by a user; (2) drawing a plurality of imaging curves of planes cutting the camera to form a plurality of imaging space combinations, and selecting a plurality of the imaging space combinations to form an imaging space combination set; (3) for any imaging space combination in the imaging space combination set, shifting the viewpoint position of the camera, and performing the processing on each imaging space combination in the set to form a group of points; and (4) for each imaging spacing combination in the imaging space combination set, performing drawing by adopting calculated vertex parameters and the known parameters set by the user to obtain left-eye and right-eye pictures. The method can overcome the technical shortcomings of the conventional stereo display, support the generation of the left-eye and right-eye picture pair at the horizontal view angle of the camera larger than 180 degrees, and improve the sense of immersion and reality in the stereo display.

Description

A kind of camera horizontal view angle that obtains was greater than 180 o'clock right methods of generation right and left eyes picture

Technical field

The present invention relates to stereo display technique, relate in particular to a kind of camera horizontal view angle that obtains greater than 180 o'clock right methods of generation right and left eyes picture.

Background technology

Stereo display development since coming out has formed three big series so far: initiatively stereo display, passive stereo display and bore hole stereo display.Passive stereo display is owing to can support mass viewer audiences to experience simultaneously, and cost is relatively low, is widely used at three-dimensional film, exhibition etc. gradually.Along with the requirement to the feeling of immersion in the stereo display improves constantly, requirement is in stereo display, and the horizontal view angle of camera is increasing, just needs to solve the big horizontal view angle of camera, particularly the horizontal view angle generated the right method of right and left eyes picture greater than 180 o'clock in the real-time rendering.

Summary of the invention

The objective of the invention is to deficiency, provide a kind of camera horizontal view angle that obtains greater than 180 o'clock right methods of generation right and left eyes picture at technology in the existing stereo display.

It is as follows greater than the step that generated the right method of right and left eyes picture at 180 o'clock to obtain the camera horizontal view angle:

1) in 3 d graphics system, the given three-dimensional scenic of user defines a camera C, and given camera parameter value, and the camera parameter value comprises: viewpoint position C _Pos, direction of visual lines C _Dir, direction C up _UpWith an imaging curved surface Φ, wherein imaging curved surface Φ satisfies condition: cross viewpoint position C _PosAny straight line, have only an intersection point at most with imaging curved surface Φ, the parallax value d during the given again stereo display of user _Ieye

2) cross viewpoint position C _Pos, with direction of visual lines C _DirBe normal, do plane P ₀, incite somebody to action direction C up _UpProject to plane P ₀On, obtain direction vector V _Up, cross viewpoint position C _PosAlong direction vector V _UpBe straight line L ₀, do m plane of intersecting with imaging curved surface Φ, the set on this m plane is plane set M, the plane among the plane set M satisfies condition: have and have only a public intersection, and this public intersection is straight line L ₀, m is that the user is given more than or equal to 1 positive number, straight line L ₀Each plane separated into two parts among the M is gathered on the plane, formed 2*m half-plane, wherein the half-plane K that intersects with imaging curved surface Φ ₁, K ₂..., K _n, half-plane K _iWith half-plane K _jThree dimensions is divided into two area of space, wherein half-plane K _iWith half-plane K _jThe area of space at the angular bisector place of the dihedral angle that constitutes is defined as R _Ij, select two half-plane K that intersect with imaging curved surface Φ _iWith half-plane K _j, satisfy condition: the subregion of imaging curved surface Φ belongs to area of space R _IjBelong to area of space R _IjThe subregion of imaging curved surface Φ be called imaging curved surface area Φ _Ij, half-plane K _iWith half-plane K _jThe dihedral angle that constitutes, and imaging curved surface area Φ _IjBe defined as the imaging space combination, select several imaging space combinations wherein, be designated as S set, the number of the imaging space combination in the S set is h, any one imaging space combination in the S set satisfies condition: the dihedral angle in the imaging space combination is greater than 0, less than 180; Simultaneously S set satisfies condition: all imaging curved surface area unions that belong in the imaging space combination of set are Φ;

3) for any one imaging space combination Z in the S set _i, cross viewpoint position C _PosBe a ray J _i, ray J _iParallel with the dihedral angle angular bisector in the imaging space combination, cross straight line L ₀With ray J _iDo plane P _i, viewpoint position C _PosAlong plane P _iNormal negative direction translation distance a is a V in the position _Il, viewpoint position C _PosAlong plane P _iNormal positive direction translation distance b is a V in the position _Ir, a and b satisfy condition: a+b=d _Ieye, and a and b be positive number, carries out above-mentioned processing for each imaging space combination in the S set, obtains one group of point: V _1l, V _1r, V _2l, V _2r..., V _Nl, V _Nr

4) for any one imaging space combination Z in the S set _i, with V _IlBe viewpoint position, direction of observation and imaging space combination Z _iIn dihedral angle angular bisector direction parallel, upward to V _Up, the imaging curved surface is imaging space combination Z _iIn the imaging curved surface area, draw, obtain picture I _Il, carry out above-mentioned processing for each imaging space combination in the S set, obtain a group of pictures I _1l..., I _Nl, this group of pictures has formed the left eye picture about camera C;

5) for any one imaging space combination Z in the S set _i, with V _IrBe viewpoint position, direction of observation and imaging space combination Z _iIn dihedral angle angular bisector direction parallel, upward to V _Up, the imaging curved surface is imaging space combination Z _iIn the imaging curved surface area, draw, obtain picture I _Ir, carry out above-mentioned processing for each imaging space combination in the S set, obtain picture sequence I _1r..., I _Nr, this group of pictures has formed the right eye picture about camera C.

The present invention is in stereo display, and the camera horizontal view angle was greater than 180 o'clock, and it is right well to generate the right and left eyes picture, improves the feeling of immersion in the stereo display, supports more spectators to experience stereo display.

Description of drawings

Fig. 1 draws with OpenGL, and the camera horizontal view angle is 360 when spending, and is cut into the method for image space combination;

Fig. 2 draws with OpenGL, and the camera horizontal view angle is 360 when spending, the definition of the viewpoint position of imaging space combination;

Embodiment

The present invention will be further described below in conjunction with drawings and embodiments.

It is as follows greater than the step that generated the right method of right and left eyes picture at 180 o'clock to obtain the camera horizontal view angle:

1) in 3 d graphics system, the given three-dimensional scenic of user defines a camera C, and given camera parameter value, and the camera parameter value comprises: viewpoint position C _Pos, direction of visual lines C _Dir, direction C up _UpWith an imaging curved surface Φ, wherein imaging curved surface Φ satisfies condition: cross viewpoint position C _PosAny straight line, have only an intersection point at most with imaging curved surface Φ, the parallax value d during the given again stereo display of user _Ieye

2) cross viewpoint position C _Pos, with direction of visual lines C _DirBe normal, do plane P ₀, incite somebody to action direction C up _UpProject to plane P ₀On, obtain direction vector V _Up, cross viewpoint position C _PosAlong direction vector V _UpBe straight line L ₀, do m plane of intersecting with imaging curved surface Φ, the set on this m plane is plane set M, the plane among the plane set M satisfies condition: have and have only a public intersection, and this public intersection is straight line L ₀, m is that the user is given more than or equal to 1 positive number, straight line L ₀Each plane separated into two parts among the M is gathered on the plane, formed 2*m half-plane, wherein the half-plane K that intersects with imaging curved surface Φ ₁, K ₂..., K _n, half-plane K _iWith half-plane K _jThree dimensions is divided into two area of space, wherein half-plane K _iWith half-plane K _jThe area of space at the angular bisector place of the dihedral angle that constitutes is defined as R _Ij, select two half-plane K that intersect with imaging curved surface Φ _iWith half-plane K _j, satisfy condition: the subregion of imaging curved surface Φ belongs to area of space R _IjBelong to area of space R _IjThe subregion of imaging curved surface Φ be called imaging curved surface area Φ _Ij, half-plane K _iWith half-plane K _jThe dihedral angle that constitutes, and imaging curved surface area Φ _IjBe defined as the imaging space combination, select several imaging space combinations wherein, be designated as S set, the number of the imaging space combination in the S set is h, any one imaging space combination in the S set satisfies condition: the dihedral angle in the imaging space combination is greater than 0, less than 180; Simultaneously S set satisfies condition: all imaging curved surface area unions that belong in the imaging space combination of set are Φ;

3) for any one imaging space combination Z in the S set _i, cross viewpoint position C _PosBe a ray J _i, ray J _iParallel with the dihedral angle angular bisector in the imaging space combination, cross straight line L ₀With ray J _iDo plane P _i, viewpoint position C _PosAlong plane P _iNormal negative direction translation distance a is a V in the position _Il, viewpoint position C _PosAlong plane P _iNormal positive direction translation distance b is a V in the position _Ir, a and b satisfy condition: a+b=d _Ieye, and a and b be positive number, carries out above-mentioned processing for each imaging space combination in the S set, obtains one group of point: V _1l, V _1r, V _2l, V _2r..., V _Nl, V _Nr

4) for any one imaging space combination Z in the S set _i, with V _IlBe viewpoint position, direction of observation and imaging space combination Z _iIn dihedral angle angular bisector direction parallel, upward to V _Up, the imaging curved surface is imaging space combination Z _iIn the imaging curved surface area, draw, obtain picture I _Il, carry out above-mentioned processing for each imaging space combination in the S set, obtain a group of pictures I _1l..., I _Nl, this group of pictures has formed the left eye picture about camera C;

5) for any one imaging space combination Z in the S set _i, with V _IrBe viewpoint position, direction of observation and imaging space combination Z _iIn dihedral angle angular bisector direction parallel, upward to V _Up, the imaging curved surface is imaging space combination Z _iIn the imaging curved surface area, draw, obtain picture I _Ir, carry out above-mentioned processing for each imaging space combination in the S set, obtain picture sequence I _1r..., I _Nr, this group of pictures has formed the right eye picture about camera C.

Embodiment

Be implemented in the stereo display, draw with OpenGL, the camera horizontal view angle is 360 when spending, and obtains the right and left eyes picture to may further comprise the steps:

1) in 3 d graphics system, the user is by 3DS Max modeling, and a given three-dimensional scenic defines a camera C, and given its parameter value, and camera parameter comprises: viewpoint position C _Pos, direction of visual lines C _Dir, direction C up _UpWith a cylinder imaging curved surface Φ, wherein the imaging curved surface satisfies condition: cross viewpoint position C _PosAny straight line, have only an intersection point at most with the imaging curved surface.Parallax value d during the given again stereo display of user _Ieye

Viewpoint position C _PosOn cylinder imaging curved surface axle,, equal apart from the distance of cylinder bottom surface in the center of cylinder axis.

2) cross viewpoint position C _Pos, with direction of visual lines C _DirBe normal, do plane P ₀To direction C up _UpProject to plane P ₀On, obtain direction vector V _UpCross viewpoint position C _PosAlong direction V _UpBe straight line L ₀Do 3 planes of intersecting with imaging curved surface Φ, these three planes are divided into 6 parts with a cylindricality imaging curved surface Φ, and the set on these 3 planes is plane set M, plane among the plane set M satisfies condition: have and have only a public intersection, and this public intersection is straight line L ₀Straight line L ₀Each plane separated into two parts among the M is gathered on the plane, formed 2*3 half-plane, wherein the half-plane K that intersects with imaging curved surface Φ ₁, K ₂..., K ₆, half-plane K _iWith half-plane K _jThree dimensions is divided into two area of space, wherein half-plane K _iWith half-plane K _jThe area of space at the angular bisector place of the dihedral angle that constitutes is defined as R _IjSelect two half-plane K that intersect with imaging curved surface Φ _iWith half-plane K _j, satisfy condition: the subregion of imaging curved surface Φ belongs to area of space R _IjBelong to area of space R _IjThe subregion of imaging curved surface Φ be called imaging curved surface area Φ _IjHalf-plane K _iWith half-plane K _jThe dihedral angle that constitutes, and imaging curved surface area Φ _IjBe defined as the imaging space combination, be designated as Z{K _i, K _j, Φ _Ij.Select 3 imaging space combination: Z wherein ₁{ K ₁, K ₃, Φ ₁₃, Z ₂{ K ₃, K ₅, Φ ₃₅And Z ₃{ K ₅, K ₁, Φ ₅₁, be designated as S set, see Fig. 1.Any one imaging space combination in the S set is satisfied: the dihedral angle in the imaging space combination is 120 degree, greater than 0 degree, less than 180 degree; Simultaneously S set satisfies condition: all imaging curved surface area unions that belong in the imaging space combination of set are Φ.

3) for any one imaging space combination Z in the S set _i, cross viewpoint position C _PosBe a ray J _i, this ray is parallel with the dihedral angle angular bisector in the imaging space combination, crosses straight line L ₀With ray J _iDo plane P _i, C _PosAlong plane P _iNormal negative direction translation distance d _IeyeA V is in/2 positions _Il, C _PosAlong plane P _iNormal positive direction translation distance d _IeyeA V is in/2 positions _Ir, carry out above-mentioned processing for each imaging space combination in the S set, obtain one group of some (see figure 2): V _1l, V _1r, V _2l, V _2r, V _3l, V _3r

4) for any one imaging space combination Z in the S set _i, in using the OpenGL drawing process, camera parameter: with V _IlBe viewpoint position, direction of observation and imaging space combination Z _iIn dihedral angle angular bisector direction parallel, upward to being V _Up, the imaging curved surface is imaging space combination Z _iIn the imaging curved surface area, draw, obtain picture I _IlCarry out above-mentioned processing for each imaging space combination in the S set, obtain a group of pictures I _1l, I _2l, I _3l, this group of pictures has formed the left eye picture about camera C;

In carrying out drawing process, the imaging curved surface that OpenGL draws is a two-dimensional plane, in order to obtain imaging space combination Z _iIn the imaging curved surface on picture, after completing, picture is mapped on the cylinder imaging curved surface.

5) for any one imaging space combination Z in the S set _i, in using the OpenGL drawing process, with V _IrBe viewpoint position, direction of observation and imaging space combination Z _iIn dihedral angle angular bisector direction parallel, upward to V _Up, the imaging curved surface is imaging space combination Z _iIn the imaging curved surface area, draw, obtain picture I _IrCarry out above-mentioned processing for each imaging space combination in the S set, obtain picture sequence I _1r, I _2r, I _3r, this group of pictures has formed the right eye picture about camera C.

In carrying out drawing process, the imaging curved surface that OpenGL draws is a two-dimensional plane, in order to obtain imaging space combination Z _iIn the imaging curved surface on picture, after completing, picture is mapped on the cylinder imaging curved surface.

Claims (1)

1. one kind is obtained the camera horizontal view angle greater than 180 o'clock right methods of generation right and left eyes picture, it is characterized in that its step is as follows:

1) in 3 d graphics system, the given three-dimensional scenic of user defines a camera C, and given camera parameter value, and the camera parameter value comprises: viewpoint position C _Pos, direction of visual lines C _Dir, direction C up _UpWith an imaging curved surface Φ, wherein imaging curved surface Φ satisfies condition: cross viewpoint position C _PosAny straight line, have only an intersection point at most with imaging curved surface Φ, the parallax value d during the given again stereo display of user _Ieye

2) cross viewpoint position C _Pos, with direction of visual lines C _DirBe normal, do plane P ₀, incite somebody to action direction C up _UpProject to plane P ₀On, obtain direction vector V _Up, cross viewpoint position C _PosAlong direction vector V _UpBe straight line L ₀, do m plane of intersecting with imaging curved surface Φ, the set on this m plane is plane set M, the plane among the plane set M satisfies condition: have and have only a public intersection, and this public intersection is straight line L ₀, m is that the user is given more than or equal to 1 positive number, straight line L ₀Each plane separated into two parts among the M is gathered on the plane, formed 2*m half-plane, wherein the half-plane K that intersects with imaging curved surface Φ ₁, K ₂..., K _n, half-plane K _iWith half-plane K _jThree dimensions is divided into two area of space, wherein half-plane K _iWith half-plane K _jThe area of space at the angular bisector place of the dihedral angle that constitutes is defined as R _Ij, select two half-plane K that intersect with imaging curved surface Φ _iWith half-plane K _j, satisfy condition: the subregion of imaging curved surface Φ belongs to area of space R _IjBelong to area of space R _IjThe subregion of imaging curved surface Φ be called imaging curved surface area Ф _Ij, half-plane K _iWith half-plane K _jThe dihedral angle that constitutes, and imaging curved surface area Φ _IjBe defined as the imaging space combination, select several imaging space combinations wherein, be designated as S set, the number of the imaging space combination in the S set is h, any one imaging space combination in the S set satisfies condition: the dihedral angle in the imaging space combination is greater than 0, less than 180; Simultaneously S set satisfies condition: all imaging curved surface area unions that belong in the imaging space combination of set are Φ;

3) for any one imaging space combination Z in the S set _i, cross viewpoint position C _PosBe a ray J _i, ray J _iParallel with the dihedral angle angular bisector in the imaging space combination, cross straight line L ₀With ray J _iDo plane P _i, viewpoint position C _PosAlong plane P _iNormal negative direction translation distance a is a V in the position _Il, viewpoint position C _PosAlong plane P _iNormal positive direction translation distance b is a V in the position _Ir, a and b satisfy condition: a+b=d _Ieye, and a and b be positive number, carries out above-mentioned processing for each imaging space combination in the S set, obtains one group of point: V _1l, V _1r, V _2l, V _2r..., V _Nl, V _Nr

4) for any one imaging space combination Z in the S set _i, with V _IlBe viewpoint position, direction of observation and imaging space combination Z _iIn dihedral angle angular bisector direction parallel, upward to V _Up, the imaging curved surface is imaging space combination Z _iIn the imaging curved surface area, draw, obtain picture I _Il, carry out above-mentioned processing for each imaging space combination in the S set, obtain a group of pictures I _1l..., I _Nl, this group of pictures has formed the left eye picture about camera C;

5) for any one imaging space combination Z in the S set _i, with V _IrBe viewpoint position, direction of observation and imaging space combination Z _iIn dihedral angle angular bisector direction parallel, upward to V _Up, the imaging curved surface is imaging space combination Z _iIn the imaging curved surface area, draw, obtain picture I _Ir, carry out above-mentioned processing for each imaging space combination in the S set, obtain picture sequence I _1r..., I _Nr, this group of pictures has formed the right eye picture about camera C.

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