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I'm required to move my virtual camera from Point A in 3D space to Point B in an elliptical orbit. So far, I have:

  • Calculated the projected lines from the center of each camera position (i.e. extended the front vector infinitely).
  • Used this to calculate the minimum distance between these 2 projected lines which will act as the center for my ellipse.
  • Visualized the 3D skewed plane in which I need to perform the movement.

But now I am stuck! I'm (obviously) not a mathematician so I'm having a hard time getting my head around what I need to do next.

I have 2 points on this elliptical arc (although I have no idea where they are on the circumference, and so have no idea what the major and minor axis limits are; a and b in conventional notation I believe?) Currently, the movement between these 2 points is linear so I can use that as a starting base in case that is any sort of help? Could someone please guide me in the right direction?

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If you don't need an actual elliptical movement, but just a "curvy" movement, it would be simpler to use splines. – toto2 Nov 21 '11 at 16:19

Although 2D, this example that uses the parametric form in canonical position may offer some insight.

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Thanks for the response. That certainly does help but I still have the problem of not knowing a and b e.g. my two arbitrary points may not be the major and minor axes. They may just be 20 degrees apart for example and neither may lie on the major and/or minor axis. Is there any way to calculate the major and minor axis given a center point and 2 perimeter points? – Chris Robinson Nov 22 '11 at 8:29
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An ellipse in the plane has five degrees of freedom; two is not enough. Since you know the center, maybe the polar form relative to center would be useful. Aren't a and b arbitrary for "an elliptical orbit?" – trashgod Nov 22 '11 at 15:55
    
Thanks for the clarification. That confirms the conclusion I came to. Without making a lot of assumptions, it isn't possible to do. I was under the impression that a and b were the magnitude of the semi-major and semi-minor axes? Or am I way out of whack? If so, the polar form would be exactly what I need! – Chris Robinson Nov 23 '11 at 8:27
    
Yes; I've also seen a called the major radius and b called the minor radius. – trashgod Nov 23 '11 at 17:51

As I understand you want to calculate the point of the ellipse. You can use the ellipse equation: http://en.wikipedia.org/wiki/Ellipse or if you do not have the center, height, width of the ellipse, then you can assign spline on the give points: http://en.wikipedia.org/wiki/Spline_%28mathematics%29

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