How to find opposing triangle pairs in triangulated objects?

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Andre Lutz
Andre Lutz am 9 Jun. 2021
Kommentiert: Andre Lutz am 27 Jul. 2021
Hi,
I want to find opposing triangle pairs in triangulated objects like shown in the example picture. The example data is attached with variables F and V for faces and vertices.
The interesting areas are marked in the pictures.
The requirements for a match of my choice would be:
  1. distance of triangles lower than threshold, e.g. 3mm
  2. triangles should be close to parallel. This could be set by a threshold of the "degree of parallelism". However a good measurement could be defined.
  3. "correct" spatial orientation would be great, but is a bonus.
How I started:
  • calculate center of gravity of all triagles
  • calculate each of the distances (pdist2)
  • remove triangle pairs with too high distances
  • calculate normal vectors of remaining triangles
  • check "parallelism" of triangles by dot product of normal vectors (dot product >0.9)
  • remove adjacent triangle pairs that are "parallel" according to above definition
This is not very robust and leads to following issue:
  • second neighbors are still found (neighbors of the adjacent triangles)
Is there a smart way to remove 2nd or 3rd neighbors or neighbors in general (neighborhood matrix/tree?!?)
Is there in general a smarter and more robust way to do that? It seems I ran into a direction where I have to exclude a lot of undesired cases....
Any help is welcome :-)
  2 Kommentare
darova
darova am 24 Jul. 2021
Is the area of interest always vertical?
Andre Lutz
Andre Lutz am 26 Jul. 2021
mostly yes, but not in general :-/

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darova
darova am 26 Jul. 2021
Ran in:
Here is an idea or finding neigbour points;
% some data
x0 = rand(40,1);
y0 = rand(40,1);
s1 = max(max(x0)-min(x0),max(y0)-min(y0)); % scale factor (max value)
% scale the data
x1 = round((x0-min(x0))/s1*39)+5;
y1 = round((y0-min(y0))/s1*39)+5;
A = zeros(50);
ind = sub2ind(size(A),y1,x1); % indices
A(ind) = 1:40; % write into matrix numbers of points
A1 = A*0;
A1(y1(5)-4:y1(5)+4,x1(5)-4:x1(5)+4) = 1; % region around 5th point
A1 = A.*A1; % select points in region
imshow([A A(:,1)+1 A1])
  • Is there a smart way to remove 2nd or 3rd neighbors or neighbors in general (neighborhood matrix/tree?!?)
I don't understand. Why can't you just select max value of dot product?
  1 Kommentar
Andre Lutz
Andre Lutz am 27 Jul. 2021
2 neighboring triangles might be fully parallel. Therefore the dot product of there normal vectors might be 1 (or -1).
If I just check the dot product of the normal vectors, I'll also find the neighboring triangles. Therefore I want to find a way to exclude them. The direct neighbors are easy to exclude as the share nodes with my triangle. The second and third neigbors are not so easy to find.

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