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NOTE: first, i should say that I posted this in here as many mathematicians are experts in C++ so, I believe by posting my problem in this forum, it helps me to get comments from such persons.

I am trying to reconstruct specific 3d objects such as cubes, pyramids and so on. For this, i am using point cloud data and then fitting planar surfaces for the segmented point patches. Planes are obtained by doing Least sqaure adjustments. Then my objective is to intersect neighbouring planes and then to get intersection lines (line segments). Then from those lines, i wish to make a something like wireframe model.

But, when i get all the normal vectors (n1, ..n4 in this object) and then if i project them onto XY plane and calculated the azimuths of each plane, then they are not exactly changing by 90 degree but 92, 87….. I guess because of this plane rotation, the intersection lines do not meet to one single pyramid top.

So, as i am looking for an accurate pyramid model, i think i should first adjust these planes in a way to having their azimuths exactly in 90 degree differences with adjacent plane. After that, i think i should intersect them, this will allow me to reconstruct accurate and regular shape objects.

please refer following sample images enter image description here

Now, i want to know, how should i update my plane parameters in a way to reside their azimuth differences exactly in 90 degrees with other planes. In this case, should i change both (a, b, c) and d. where the plane equation is ax+by+cz+d=0.

Could you please give me equations and way to do this. thank you.

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closed as off-topic by High Performance Mark, nijansen, SingerOfTheFall, Blastfurnace, plannapus Mar 1 '14 at 8:06

  • This question does not appear to be about programming within the scope defined in the help center.
If this question can be reworded to fit the rules in the help center, please edit the question.

Your question is explicitly not programming related. You ask for equations on a programming Q&A site. Off-topic. – High Performance Mark Sep 16 '13 at 9:59
This question appears to be off-topic because its not programming-related. Try to post your question in another SE site, like – Manu343726 Sep 16 '13 at 10:05
@High Performance Mark: let me know the url of that site, thanks – gnp Sep 16 '13 at 10:27
Do you want the differences in azimuth to be 90 degrees, or do you want the planes to meet in a point? I ask now in order to avert a lot of follow-up questions. – Beta Sep 16 '13 at 13:13
@Beta: many many thanks for asking this. Basically I need to update the planes in a way to reside them with 90 azimuth difference with their adjacent planes not to meet them in a one point. – gnp Sep 16 '13 at 13:38
up vote 1 down vote accepted

The plane that contains a face of the solid is defined by ax+by+cz+d=0, which has a normal vector (a, b, c). We can ignore the z-component (c), but we must rotate the component in the x-y plane, (a, b), so that it is perpendicular to that of the neighboring faces.

Consider face 1 and face 2. Face 1 has normal n1 = (a1, b1, c1), and the projection of n1 into the x-y plane is (a1, b1), which we can call k1. Likewise, k2 = (a2, b2).

We want to rotate k2 to k'2, so that k'2 has the magnitude of k2, but a direction 90 degrees from k1. So we'll take k1, rotate it 90 degrees (clockwise), then scale it:

k'2 = (b1, -a1) sqrt(a22+b22)/sqrt(a12+b12)

share|improve this answer
many thanks. to clarify, if I ask 3 things, (1.) what is the meaning of scalling. does it doing normalization? then, the new normal vector (k'2, c2) or something else? (2.) does this rotation still fit the points refering to the original plane? (3.) do you think after doing ratation, if i get intersection lines, then will they meet a single point because i feel it should be so in theoratically. – gnp Sep 17 '13 at 15:06
@gnp: (1) scaling means changing the size of something without changing its other characteristics like shape or direction, so yes, the new normal vector is (k'2, c), (2) It will fit some of them; that's what happens if you rotate a plane. If it fits all of them, then you have done nothing. (3) Probably not; you must adjust the d values. I did not address this because you said in a comment that it was not important. – Beta Sep 17 '13 at 15:16
thank you again. now some of my doubts are clear. so i would like to ask, wouldn't it be possible to update your answer by combining both issues. I mean, azimuth should be 90 or 180 degree and when taking intersection lines, all should be passing through a single point. (note: some other objects do have 180 azimuth difference with opposite neighbors, i want to use this case as well, then how the equation would change). – gnp Sep 17 '13 at 21:33
for the simplicity i am writing the question again as; is it possible to rectify both conditions. that is, azimuth should have 0, 90 or 180 differences and plane intersections are meeting at a one vertex. – gnp Sep 17 '13 at 21:36

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