How to find the orientation of the line of the intersection between two planes?

7 views (last 30 days)
M
M on 5 Feb 2023
Edited: Torsten on 6 Feb 2023
Ran in:
Is there any method/indiacator that i can use to know the orientation of the the intersection line between two planes( using Dual Plucker Matrix )?
Dual Plücker matrix
I used the follwoing code get the line:
P1 =[177668442.453315 ,-102576923.076923, 0];
P2 =[ -102576923.076923 ,177668442.453315 ,-102576923.076923];
P3= [0, -102576923.076923, 88834221.2266576];
P11= [152763459.308716 , -102576923.076923, 0];
P22=[ -102576923.076923, 183536536.231793 , -102576923.076923];
P33= [0, -102576923.076923, 91768268.1158967];
A=null([[P1;P2;P3],ones(3,1)]); %plane 1
B=null([[P11;P22;P33],ones(3,1)]); %plane 2
L=A*B.' - B*A.' %line of intersection
L = 4×4
0 -0.0351 -0.0484 0.0000 0.0351 0 -0.0138 0.0000 0.0484 0.0138 0 0.0000 -0.0000 -0.0000 -0.0000 0

Sign in to answer this question.

Accepted Answer

Matt J
Matt J on 5 Feb 2023
Edited: Matt J on 5 Feb 2023
Ran in:
P1 =[177668442.453315 ,-102576923.076923, 0];
P2 =[ -102576923.076923 ,177668442.453315 ,-102576923.076923];
P3= [0, -102576923.076923, 88834221.2266576];
P11= [152763459.308716 , -102576923.076923, 0];
P22=[ -102576923.076923, 183536536.231793 , -102576923.076923];
P33= [0, -102576923.076923, 91768268.1158967];
A=null([[P1;P2;P3],ones(3,1)]); %plane 1
B=null([[P11;P22;P33],ones(3,1)]); %plane 2
L=A*B.' - B*A.' %line of intersection;
L = 4×4
0 -0.0351 -0.0484 0.0000 0.0351 0 -0.0138 0.0000 0.0484 0.0138 0 0.0000 -0.0000 -0.0000 -0.0000 0
N=null(L);
a=N(:,1)+N(:,2);
b=N(:,1)+2*N(:,2);
direction=normalize( b(1:3)/b(4)-a(1:3)/a(4) ,'n')
direction = 3×1
0.2242 -0.7894 0.5715
or,
direction=normalize( cross(A(1:3),B(1:3)) ,'n')
direction = 3×1
-0.2242 0.7894 -0.5715
  6 Comments
Show 4 older comments
M
M on 5 Feb 2023
Edited: M on 5 Feb 2023
@Matt J I have a question please if we have more than 3 dimensions, 4d 5d..
Would this method works?
because I tried 4d problem and 'N' size is 5*3
a=N(:,1)+N(:,2);
b=N(:,1)+2*N(:,2);
direction=normalize( b(1:3)/b(4)-a(1:3)/a(4) ,'n')
Also I want to ask why did you multiply by 2 here "b=N(:,1)+2*N(:,2);" ?
and what does a and b denote?

Sign in to comment.

More Answers (1)

Torsten
Torsten on 5 Feb 2023
Edited: Torsten on 5 Feb 2023
Ran in:
If you look at the next lines in Matt's code, he creates 100 points on the line.
Thus in the modified code below, Pstart could be taken as a point on the line and d as a direction vector for the line emanating from Pstart.
Did you mean something like this ?
P1 =[177668442.453315 ,-102576923.076923, 0];
P2 =[ -102576923.076923 ,177668442.453315 ,-102576923.076923];
P3= [0, -102576923.076923, 88834221.2266576];
P11= [152763459.308716 , -102576923.076923, 0];
P22=[ -102576923.076923, 183536536.231793 , -102576923.076923];
P33= [0, -102576923.076923, 91768268.1158967];
A=null([[P1;P2;P3],ones(3,1)]); %plane 1
B=null([[P11;P22;P33],ones(3,1)]); %plane 2
L=A*B.' - B*A.'; %line of intersection
N=null(L);
t=linspace(-.1,.1);
xyz=N(:,1) + N(:,2)*t;
xyz = xyz(1:3,:)./xyz(4,:);
P1 = xyz(:,1);
P2 = xyz(:,2);
Pstart = P1
Pstart = 3×1
2.2415 -7.8929 5.7147
d = (P2-P1)/norm(P2-P1)
d = 3×1
0.2242 -0.7894 0.5715
  13 Comments
Show 11 older comments
M
M on 5 Feb 2023
@Torsten could you please suggest the methods that we can get the intersected plane (2d object in 4d) ?
Torsten
Torsten on 6 Feb 2023
Edited: Torsten on 6 Feb 2023
The usual representation of the plane of intersection is given by all solutions x of a linear system of the form
A*x = b
Here, A is a 2x4 matrix and b is a 2x1 vector.
The rows of A are the normal vectors of 2 hyperplanes in the 4d space.
The vector b somehow represents the distance of these hyperplances to the origin.

Sign in to comment.

Categories

Find more on Behavior and Psychophysics in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!