Create a node in the space between two nodes (A and B) and following the direction normal to a node (N)

Question

Alberto Acri 2024년 2월 5일

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https://kr.mathworks.com/matlabcentral/answers/2078266-create-a-node-in-the-space-between-two-nodes-a-and-b-and-following-the-direction-normal-to-a-node

편집: Matt J 2024년 3월 20일

Hi. I need to create a node in the space between two nodes (A and B) and following the direction normal to a node (N) as in the figure.

Is there a function that can do this? The result are the coordinates of node C.

A = [-25.5530   -185.3199   -211.6502];
B = [-25.4769   -185.6468   -211.2523];
N = [-25.4602   -185.4676   -211.6694];
normal_plane = [0.2437  -0.62123    0.7447];
figure
plot3(N(:,1),N(:,2),N(:,3),'r.','Markersize',25);
hold on
plot3(A(:,1),A(:,2),A(:,3),'k.','Markersize',25);
plot3(B(:,1),B(:,2),B(:,3),'k.','Markersize',25);
hold off
axis equal
grid off

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William Rose 2024년 2월 5일

Sorry about the formatting, doing it on phone

Catalytic 2024년 2월 5일

@Alberto Acri

You've asked a million questions on coordinate goemetry on this forum. Surely you now by now how to find the equation of a plane and its intersection with a line.

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Answer 1

Matt J 2024년 2월 5일

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https://kr.mathworks.com/matlabcentral/answers/2078266-create-a-node-in-the-space-between-two-nodes-a-and-b-and-following-the-direction-normal-to-a-node#answer_1402956

편집: Matt J 2024년 2월 5일

MATLAB Online에서 열기

I might be misinterpreting your question somehow, but from your figure illustration, it doesn't make sense that you would be supplying both N and normal_plane independently. The normal plane there will be a function of A,B, and N.

A = [-25.5530   -185.3199   -211.6502 ,1]'; %work in homogeneous coordinates
B = [-25.4769   -185.6468   -211.2523 ,1]';
N = [-25.4602   -185.4676   -211.6694 ,1]';
n=B-A; %normal
normal_plane=[n(1:3);-n'*N]; %plane
L=(A*B'- B*A'); %The line [A,B]
C=L*normal_plane; C=C/C(4)
C = 4×1
  -25.5396
 -185.3775
 -211.5802
    1.0000
normal_plane'*C  %Check that it lies in the plane
ans = -1.4211e-14
dot(A-B,N-C)  %Check normality
ans = -1.5446e-14
f=@(z) z(1:3);
norm(cross(f(C-A),f(B-A)))  %Check co-linearity of C with [A,B]
ans = 4.9595e-12

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Matt J 2024년 3월 18일

편집: Matt J 2024년 3월 18일

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node 'C' is on the line of nodes 'A' and 'B' but is not passing through the yellow plane

It is not clear what defines the "yellow plane". It doesn't even look like a plane, but rather 3 colinear yellow dots. In your original post, the requirements on the plane were that it be normal to [A,B] and contain the point N. You can see below that that is still true with this new set of data.

%%

A = importdata("A_test.mat");

B = importdata("B_test.mat");

N = importdata("G_test.mat");

%%

A = [A, 1]';

B = [B, 1]';

N = [N, 1]';

n = B-A; %normal

normal_plane = [n(1:3);-n'*N]; %plane

L = (A*B'- B*A'); %The line [A,B]

C = L*normal_plane;

C = C/C(4);

% =================

figure

plot3(N(1),N(2),N(3),'r.','Markersize',20)

xlabel x; ylabel y; zlabel z; axis equal

hold on

plot3(A(1),A(2),A(3),'c.','Markersize',20)

plot3(B(1),B(2),B(3),'m.','Markersize',20)

plot3(C(1),C(2),C(3),'g.','Markersize',20)

D=N+2*(C-N);

plot3(D(1),D(2),D(3),'.','MarkerFaceColor','none');

ax=axis;

fsurf(@(x,y) -n(3)\(n(1)*x+n(2)*y + normal_plane(4)),...

'FaceColor','b','FaceAlpha',0.3,'EdgeColor','none');

axis(ax);

grid off

hold off; view(85,20)

Alberto Acri 2024년 3월 20일

편집: Alberto Acri 2024년 3월 20일

MATLAB Online에서 열기

With this code I obtained this result. The green node C is in an incorrect position. How come?

A = importdata("A_test.mat");
B = importdata("B_test.mat");
N = importdata("G_test.mat");
nodes_test = importdata("nodes_test.mat");
   
    %% DATA
    A = [A, 1]';
    B = [B, 1]';
    
    P = planarFit(nodes_test);
    n = P.normal;
    normal_plane = [P.normal, -P.d];
    normal_plane = normal_plane';
    L = (A*B'- B*A'); %The line [A,B]
    C = L*normal_plane; 
    C = C/C(4);
    % =================
    figure
    
    plot3(A(1),A(2),A(3),'c.','Markersize',20)
     xlabel x; ylabel y; zlabel z; axis equal
     
    hold on
    plot3(B(1),B(2),B(3),'m.','Markersize',20)
    plot3(C(1),C(2),C(3),'g.','Markersize',20)
    plot3(nodes_test(:,1), nodes_test(:,2), nodes_test(:,3), 'y.', 'Markersize', 30);
    patch(nodes_test(:,1), nodes_test(:,2), nodes_test(:,3), 'y'); % Plotting the plane  
    
    ax=axis;
    fsurf(@(x,y) -n(3)\(n(1)*x+n(2)*y + normal_plane(4)),...
        'FaceColor','b','FaceAlpha',0.3,'EdgeColor','none');
    axis(ax);
    grid off
    hold off; view(85,20)

Matt J 2024년 3월 20일

편집: Matt J 2024년 3월 20일

MATLAB Online에서 열기

A = importdata("A_test.mat");

B = importdata("B_test.mat");

nodes_test = importdata("nodes_test.mat");

%% DATA

A = [A, 1]';

B = [B, 1]';

P = planarFit(nodes_test'); %<--------------- Note transpose

n = P.normal;

normal_plane = [P.normal, -P.d];

normal_plane = normal_plane';

L = (A*B'- B*A'); %The line [A,B]

C = L*normal_plane;

C = C/C(4);

% =================

figure

plot3(A(1),A(2),A(3),'c.','Markersize',20)

xlabel x; ylabel y; zlabel z; axis equal

hold on

plot3(B(1),B(2),B(3),'m.','Markersize',20)

plot3(C(1),C(2),C(3),'g.','Markersize',20)

plot3(nodes_test(:,1), nodes_test(:,2), nodes_test(:,3), 'y.', 'Markersize', 30);

patch(nodes_test(:,1), nodes_test(:,2), nodes_test(:,3), 'y'); % Plotting the plane

ax=axis;

fsurf(@(x,y) -n(3)\(n(1)*x+n(2)*y + normal_plane(4)),...

'FaceColor','b','FaceAlpha',0.3,'EdgeColor','none');

axis(ax);

grid off

hold off; view(85,20)

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Answer 2

William Rose 2024년 2월 5일

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https://kr.mathworks.com/matlabcentral/answers/2078266-create-a-node-in-the-space-between-two-nodes-a-and-b-and-following-the-direction-normal-to-a-node#answer_1402961

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@Alberto Acri

D=(A+B)/2; % the location 
E=cross((A-B),(N-D)); % the direction

good luck

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Answer 3

Catalytic 2024년 2월 5일

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https://kr.mathworks.com/matlabcentral/answers/2078266-create-a-node-in-the-space-between-two-nodes-a-and-b-and-following-the-direction-normal-to-a-node#answer_1403006

MATLAB Online에서 열기

A = [-25.5530   -185.3199   -211.6502];
B = [-25.4769   -185.6468   -211.2523];
N = [-25.4602   -185.4676   -211.6694];
C=(B-A)'\(N-A)'*(B-A)+A
C = 1×3
  -25.5396 -185.3775 -211.5802

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Answer 4

Shubham 2024년 2월 6일

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https://kr.mathworks.com/matlabcentral/answers/2078266-create-a-node-in-the-space-between-two-nodes-a-and-b-and-following-the-direction-normal-to-a-node#answer_1403356

MATLAB Online에서 열기

Hi Alberto,

To create a node C in the space between two nodes A and B, following the direction normal to a node N, you can follow these steps:

Calculate the midpoint (M) between nodes A and B. This gives you a point that lies directly between them.
Determine the desired distance (d) you want node C to be from the midpoint M along the normal direction.
Scale the normal vector (normal_plane) to have the desired length (d).
Add the scaled normal vector to the midpoint M to find the coordinates of node C.

Here is how you can implement this in MATLAB:

A = [-25.5530, -185.3199, -211.6502];
B = [-25.4769, -185.6468, -211.2523];
N = [-25.4602, -185.4676, -211.6694];
normal_plane = [0.2437, -0.62123, 0.7447];
% Calculate the midpoint between A and B
M = (A + B) / 2;
% Determine the desired distance d for node C from the midpoint M
% This value is for illustration; you'll need to choose an appropriate value.
d = 10; % Replace with the desired distance
% Normalize the normal vector
normal_plane_unit = normal_plane / norm(normal_plane);
% Scale the normal vector to have the desired length d
normal_plane_scaled = normal_plane_unit * d;
% Calculate the coordinates of node C
C = M + normal_plane_scaled;
% Plotting
figure
plot3(N(1), N(2), N(3), 'r.', 'Markersize', 25); hold on;
plot3(A(1), A(2), A(3), 'k.', 'Markersize', 25);
plot3(B(1), B(2), B(3), 'k.', 'Markersize', 25);
plot3(C(1), C(2), C(3), 'b.', 'Markersize', 25); % Node C in blue
hold off;
axis equal;
grid on;

In the code above, d is a placeholder for the distance you want node C to be from the midpoint M along the normal direction. You'll need to define d based on your specific requirements. The normal vector is also scaled to this distance and then added to the midpoint M to find the coordinates of node C.

Node C is plotted in blue for distinction. Make sure to adjust the value of d as needed for your specific use case. If you want node C to be placed in a different way related to node N, you would need to adjust the calculation accordingly.

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Create a node in the space between two nodes (A and B) and following the direction normal to a node (N)

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