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I managed to acquire camera's intrinsic and extrinsic parameters using OpenCV, thus I have fx, fy, cx and cy. And I also have the screen / image's width and height.

But how do I create an OpenGL perspective projection matrix from these parameters?

glFrustrum shows how to create projection matrix, given Z near, Z far and the image width and height. But how do I include focal points and camera centers in this matrix?

enter image description here

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4 Answers 4

up vote 3 down vote accepted

Please check the following links

Kyle Simek's explanation

My explanation

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Here is the code to obtain the OpenGL projection matrix equivalent to a computer vision camera with camera matrix K=[fx, 0, cx; 0, fy, cy; 0, 0, 1] and image size [W, H]:

glMatrixMode(GL_PROJECTION); // Select The Projection Matrix
glLoadIdentity();            // Reset The Projection Matrix
GLdouble perspMatrix[16]={2*fx/W,0,0,0,0,-2*fy/H,0,0,2*(cx/W)-1,1-2*(cy/H),(zmax+zmin)/(zmax-zmin),1,0,0,2*zmax*zmin/(zmin-zmax),0};
glMultMatrixd(perspMatrix);

This formulation assumes that the OpenGL world coordinate frame is chosen as follows:

enter image description here

The OpenGL camera is assumed to be located at the origin, looking towards positive Z axis, with a down vector collinear and towards the positive Y axis.

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sorry for resuming an old post but i think that perspMatrix[8]=2/imgWidthcx-1 and not 1-2/imgWidthcx. My tought is based on equation (7) of this link: kgeorge.github.io/2014/03/08/… , can you give me a feedback about my comment? –  Luca Feb 16 at 11:54
    
The OpenGL projection matrix is a composition of several logical transforms (world coordinates to focal coordinates to image coordinates to normalized device coordinates), so the form of your final matrix really depends on what world coordinate frame you chose. I worked on that recently, so I'll edit my answer to make the associated world coordinate frame clearer. –  AldurDisciple Feb 16 at 12:55
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In case you need a different convention for the input world coordinate frame, you'll have to derive the equation yourself. I found Song Ho Ahn's page to be very helpful in that regard. –  AldurDisciple Feb 16 at 13:15

Open GL operates with a frustum which is related to perspective projection with some limits in depth referred as near and far values. Imagine a pyramid lying on its side - this is frustum. Another analogy is a projector beam that extends in its width and height with the distance - this is frustum too. So right, left, bottom, and top are your image coordinates while near and far are your depth limits with the near beint your focal plane. OpenGL will put Cx and Cy in the center of the image plane so you can skip them. The alternative and more natural way to specify frustum is based on viewing angle or field of view (50-60 deg is typical); the function you call is glPerspective() where you still have near and far but instead of sizes specify the angle and aspect ratio. Good luck.

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In relation to the AldurDisciple answer this is the formulation you need to use if the world coordinate frame is choosen with inverted z axe

inverted z axe

glMatrixMode(GL_PROJECTION); // Select The Projection Matrix
glLoadIdentity();            // Reset The Projection Matrix
GLdouble perspMatrix[16]={2*fx/w,0,0,0,0,2*fy/h,0,0,2*(cx/w)-1,2*(cy/h)-1,-(far+near)/(far-near),-1,0,0,-2*far*near/(far-near),0};
glMultMatrixd(perspMatrix);
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