# How does tension relate to cubic spline interpolation?

How does tension relate to cubic spline interpolation? I am referring to this article for cubic spline interpolation. The tension factor t=0 is for the first and t=1 for the last knot point. But where can we substitute the other tension values, like 0.1, 0.2, etc., in the cubic spline? Can anyone direct me to any helpful references?

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Where is the link to the article? – Matt Ball Oct 14 '11 at 11:24
I have edited the post to for the article link. – sharmila Oct 14 '11 at 11:31

Cubic spline has no tension values, we calculate the first derivative and 2nd derivative to ensure continuity. Bezier curve (and tension spline) has tension value, tension determines "how sharply does the curve bend". Graphic designers on Photoshop are already playing with tensions when using bezier tool

Best place to start is Wikipedia's spline and run though some calculation with pen and paper (reading it mechanically wont help much with understanding). Start with cubic spline as they are usually introduced to 3rd yr math student.

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The link you are pointing to are using Bézier splines. Bézier splines are a special form of a polynomial spline. The Bézier spline may very well be of cubic order, but isn't "defined" using tension. A cubic Bézier curve is defined by four point p1, p2, p3, p4.

• p1 = starting point for curve
• p2 = the direction that the curve "heads" to when starting from p1 (derivative)
• p3 = the direction from which the curve arrives at p4 (derivative)*
• p4 = endpoint for the curve

Normally, the curve never goes through p2 and p3.

To say that a spline is cubic basicly mean that it approximates a polynomial of degree three, ie. `f(x) = ax^3 + bx^2 + cx + d` where d iz nonzero.

Cubic Bézier splines is just one way of defining how the curve should behave. Tension splines may also be cubic but is defined with tensions instead of derivatives.

If you give some background to why you wan't to use that code, how much of the maths you would like to understand and what your background is i might be able to point you to some reading..

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