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I have some values (bytes) over a plane evenly distributed (the come from real measures) like for instance temperature. I'm trying to generate the whole surface. But I'm not successful.

The main condition is that the number and position of the points will not be known and that the surface MUST keep the value in the points where is measured and the points in between will be interpolated.

Ideally, if only one point is set the final surface should be a mountain.

By the way, and just in the case that it may help. Im coding it on WPF (C#) and it would nice to not involve heavy libraries or whatever for such an small job

Thanks in advance !

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Voronoi triangulation + linear interpolation? –  Jan Dvorak Dec 13 '12 at 12:51
I'm already working on separating the space to the closes element but . What afterwards? What do you mean linear interpolation? How do I use the distance to modify the value ?? –  javirs Dec 13 '12 at 13:24
I meant Delaunay triangulation (the complement of the Voronoi diagram), sorry about that. –  Jan Dvorak Dec 13 '12 at 13:28
Sory.. this is not my field and I feel a bit lost .. I get the triangles .. what should I do now?? What do you mean linear interpolation? –  javirs Dec 13 '12 at 13:54
Now use the triangles as the surface. –  Jan Dvorak Dec 13 '12 at 14:02

1 Answer 1

up vote 1 down vote accepted

The typical way is to build a Delaunay triangulation of the sample set in the domain (a rectangle in your case), then use the triangles found as the surface.

The delaunay triangulation of a general set of points is defined as the set of triangles whose circumcircles does not contain any other point.

The trivial algorithm for computing the Delaunay triangulation (pick all triangles to see if any point is within their circumcircle) is O(n^4).

The incremental algorithm runs in O(n log n) expected time:

  • Generate a triangulation of three points (in your case, four - the corners of the room).
  • For each point
    • add it to the triangulation.
    • for every edge opposite the new point recursively
    • if the edge is not a part of the Delaunay triangulation of the current set of points, flip it.

The divide and conquer algorithm offers O(n log n) as well, but offers O(n log log n) for some point sets as well.

Once you have the triangulation, you just need to find the measured value by intersecting a vertical line with the surface:

  • find the triangle ABC on which the point lies.
  • express the point coordinates as A + k(B-A) + l(C-A)
  • then the point value is given as A.value + k(B.value-A.value) + l(C.value-A.value) (treat the triangle as a plane in the [domain x range] space.
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WOW Jan, Really. Thanks a lot for your help ! That is far more complicated that what I expected. My main concern was the plot calculation and not its representation.. (you know, when using matlab everything is magically done hehehe) I will spend some time, specially in the delaunay algorithm but it really sounds like it is going to work. Thanks a lot ! –  javirs Dec 14 '12 at 9:02
@javirs perhaps matlab already has a Delaunay in its library? –  Jan Dvorak Dec 14 '12 at 9:08
Sure... but I need to code it in C#.. Ill update you when I spend some time on coding .. Thanks for the details ! :D –  javirs Dec 14 '12 at 15:27

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