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I am developping an application on povray to generate an images to to use them
to test my algorithm of 3D reconstruction.
MY configuration is like this:
camera {
location<0,0,0>
sky <0,1,0>
up <0,1,0>
right<1,0,0>
direction <0, 0, 1>*0.1
angle 90
rotate <40,45,0>
translate<300, 250, 300>
look_at <0,0,1>
}
I define 100 povray unit to be 1m, it means that 1 povray unit be 1cm. I need
to calibrate camera. It means ,I need to get the internal and external
parameters.
External parameters is very simple: matrix rotation R=
[rotx(40),roty(45),rotz(0)]. The translation is the center of camera(location )
T=[300,250,300].
My problem is about the matrix K of internal parameters(3 by 3). It means the
focal, size of pixel(is square or not?),...
And Finally, I need the model used by povray to project the 3D point. I know
that I use a perspective type of projetion but . There many manner to calculate
the matrix of camera. like P= k*[R T] , P=K*[R R*T]. I need to know which
model the pov ray software uses ?
Thanks to help me.
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Am 13.03.2013 22:43, schrieb StudentPHD:
> My problem is about the matrix K of internal parameters(3 by 3). It means the
> focal, size of pixel(is square or not?),...
>
> And Finally, I need the model used by povray to project the 3D point. I know
> that I use a perspective type of projetion but . There many manner to calculate
> the matrix of camera. like P= k*[R T] , P=K*[R R*T]. I need to know which
> model the pov ray software uses ?
The standard camera model used by POVRay is a simple pinhole camera,
with the pinhole being located exactly at the camera's nominal location.
The way you specified the camera (with an explicit angle), the camera is
presumed to have a distane between the "film" and the "lens" of 1
POVRay unit, and the "film" is supposed to have a size of tan(angle) by
tan(angle)*up/right POVRay units, divided into image_width by
image_height pixels.
If using focal blur, the camera is presumed to have a simple lens
instead of a pinhole, focusing the plane at a distance of
focal_pointlocation onto the "film" plane, but having otherwise
identical characteristics as the pinhole. The aperture is presumed to
have a (virtual) diameter of "aperture" POVRay units.
I /think/ that should give you all information required to compute the
Kmatrix parameters  provided you know what the individual Kmatrix
parameters actually mean, which I really absolutely don't.
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clipka <ano### [at] anonymousorg> wrote:
> Am 13.03.2013 22:43, schrieb StudentPHD:
>
> > My problem is about the matrix K of internal parameters(3 by 3). It means the
> > focal, size of pixel(is square or not?),...
> >
> > And Finally, I need the model used by povray to project the 3D point. I know
> > that I use a perspective type of projetion but . There many manner to calculate
> > the matrix of camera. like P= k*[R T] , P=K*[R R*T]. I need to know which
> > model the pov ray software uses ?
>
> The standard camera model used by POVRay is a simple pinhole camera,
> with the pinhole being located exactly at the camera's nominal location.
>
> The way you specified the camera (with an explicit angle), the camera is
> presumed to have a distane between the "film" and the "lens" of 1
> POVRay unit, and the "film" is supposed to have a size of tan(angle) by
> tan(angle)*up/right POVRay units, divided into image_width by
> image_height pixels.
>
> If using focal blur, the camera is presumed to have a simple lens
> instead of a pinhole, focusing the plane at a distance of
> focal_pointlocation onto the "film" plane, but having otherwise
> identical characteristics as the pinhole. The aperture is presumed to
> have a (virtual) diameter of "aperture" POVRay units.
>
> I /think/ that should give you all information required to compute the
> Kmatrix parameters  provided you know what the individual Kmatrix
> parameters actually mean, which I really absolutely don't.
Hello,
I am developping an 3D reconstruction application. So I am generating some
testing images using pov ray. To achieve the 3D reconstruction, I have to
calculate the matrix projection.
I am developping all necessary functions and I calculate the matrix project p=
K*[R,R*C] where R is the rotation matrix and C is the camera center and K is
the internal matrix of the camera.
my camera setting is like this:
camera {
location<0, 0, 0>
rotate<20,45,0>
translate<300, 250, 300>
up <0,2,0>
right <2,0,0>
direction <0, 0, 1>
look_at <0,0,1> }
The focal f=1, (norm[direction]), the angle =90 and the image is rendered as
600*800 pixels, so the matrix K=
(400 0 400.
0 300 300.
0 0 1 ).
I calculate the rotation matrix like this:
Rx=RotationMatrix[20,{1,0,0}];
Ry=RotationMatrix[45,{0,1,0}];
Rz=RotationMatrix[0,{0,0,1}];
R=Transpose[Rx,Ry,Rz].
C=[300,250,300];
To check if my Matrix P is true or not.
1) I photograph a cube using the camera above. I obtain its image 2D.
Therefore, I extract the coordinates of 3D corner of the cube and the
coordinate of its projection in the image 2D. for example corner 1= (100,0,180)
its projection is (123,439).
2) I construct the same cube on matlab and I project it on 2D using the
projection matrix p and I get the coordinate 2D of the corners. I obtain the
results:
if I cancel the rotation and the translation (R=matrix identity and C=(0,0,0))
the coordinate of corners are maching very well, so P is correct
If I translate the camera, The corner are matching very well, so P is correct.
If I make a translation and rotation, the corners does not match, so P is not
correct. So where is the error in my code and is the camera setting is correct
(I mean that I rotate the camera then I translate it or the inverse, regarding
the calculation of the matrix P=K*[R,R*C]) ?
Is the calculation of the R is false or what????!! thanks to help me
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