My question is fairly simple. I have two tetrahedra, each with a current position, a linear speed in space, an angular velocity and a center of mass (center of rotation, actually).

Having this data, I am trying to find a (fast) algorithm which would precisely determine (1) whether they would collide at some point in time, and if it is the case, (2) after how much time they collided and (3) the point of collision.

Most people would solve this by doing triangle-triangle collision detection, but this would waste a few CPU cycles on redundant operations such as checking the same edge of one tetrahedron against the same edge of the other tetrahedron upon checking up different triangles. This only means I'll optimize things a bit. Nothing to worry about.

The problem is that I am not aware of any public CCD (continuous collision detection) triangle-triangle algorithm which takes self-rotation in account.

Therefore, I need an algorithm which would be inputted the following data:

- vertex data for three triangles
- position and center of rotation/mass
- linear velocity and angular velocity

And would output the following:

- Whether there is a collision
- After how much time the collision occurred
- In which point in space the collision occurred

Thanks in advance for your help.

needto be tested for collision (some call it broadphase). If no-one comes up with any real equations or a better way to do it, I'll just put everything in one distance equation (in respect to time) and write an algorithm that tries to find a solution to it. To be honest with you, I don't really feel like doing that especially if it has already been done. – x26 Jul 11 '09 at 2:11