Rotation of Ellipse to a specific vector
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I have a 3d ellipse which i plotted using ellipsoid(xc,yc,zc,xr,yr,zr) function. You can also see three vectors (blue red and yellow line) which are perpendicular to each other. I want to rotate the ellipsoid such that its x_semi_axis of the ellipse align with blue line, y_semi_axis of the ellipse align with red line and z_semi_axis of the ellipse align with yellow line.Could you please share the code to do so.Thank you
2 Comments
DGM
on 22 Aug 2021
Not knowing anything about the specifics of your use case, I'd just assume you can use rotate(). There's webdocs, but there's also a few similar questions around. Here's one about using rotate() on an ellipsoid:
Accepted Answer
Wan Ji
on 22 Aug 2021
By following operator you will get what you want
clc;clear
blueLine = [-0.4, 0.8, 0]; % direction of blue line
xc = 1;
yc = 2;
zc = 3;
xr = 1;
yr = 4;
zr = 2;
figure(1)
clf
[x,y,z] = ellipsoid(xc,yc,zc,xr,yr,zr);
mesh(x,y,z)
xlabel('x')
ylabel('y')
zlabel('z')
view(30,67)
axis equal
% relative position
x = x - xc;
y = y - yc;
z = z - zc;
t = z; % y,z axis exchange
z = y;
y = t;
figure(2);clf
mesh(x,y,z)
xlabel('x')
ylabel('y')
zlabel('z')
view(30,67)
axis equal
theta = atan2(blueLine(2), blueLine(1)) - pi/2;
x = x*cos(theta) - y*sin(theta); % rotate by theta
y = x*sin(theta) + y*cos(theta);
figure(3);clf
mesh(x,y,z)
xlabel('x')
ylabel('y')
zlabel('z')
view(30,67)
axis equal
% go back to absolute coodinate
x = x + xc;
y = y + yc;
z = z + zc;
5 Comments
Wan Ji
on 22 Aug 2021
Edited: Wan Ji
on 22 Aug 2021
Yup, I have got your idea, now I believe I achieve my answer. With Axis rotation [x->e1; y->e2; z->cross(e1,e2)]. As follows
% This is an example
% x-axis to e1
% y-axis to e2
% z-axis to e3
P0 = [0,0,0]; % point origin
P1 = [3,0,0]; % point on x-axis
P2 = [0,3,0]; % point on y-axis
P3 = [0,0,3]; % point on z-axis
e1 = [1, 1, 1]/sqrt(3); % e1 vector
e2 = [-1, 0, 1]/sqrt(2); % e2 vector
figure(1); title('Axis rotation [x->e1; y->e2; z->cross(e1,e2)]')
plot3([P0(1), P1(1)], [P0(2), P1(2)], [P0(3), P1(3)],'r-','linewidth',2)
hold on
plot3([P0(1), P2(1)], [P0(2), P2(2)], [P0(3), P2(3)], 'g-','linewidth',2)
plot3([P0(1), P3(1)], [P0(2), P3(2)], [P0(3), P3(3)],'b-','linewidth',2)
text(P1(1), P1(2),P1(3),'x')
text(P2(1), P2(2),P2(3),'y')
text(P3(1), P3(2),P3(3),'z')
P1_rot = rotate3d(e1, e2, P1)*2;
P2_rot = rotate3d(e1, e2, P2)*2;
P3_rot = rotate3d(e1, e2, P3)*2;
plot3([P0(1), P1_rot(1)], [P0(2), P1_rot(2)], [P0(3), P1_rot(3)],'r--','linewidth',2)
hold on
plot3([P0(1), P2_rot(1)], [P0(2), P2_rot(2)], [P0(3), P2_rot(3)], 'g--','linewidth',2)
plot3([P0(1), P3_rot(1)], [P0(2), P3_rot(2)], [P0(3), P3_rot(3)],'b--','linewidth',2)
text(P1_rot(1), P1_rot(2),P1_rot(3),'e1','color','c')
text(P2_rot(1), P2_rot(2),P2_rot(3),'e2','color','c')
text(P3_rot(1), P3_rot(2),P3_rot(3),'e3','color','c')
grid on
[x,y,z] = ellipsoid(0,0,0,2,1,0.5); % with centre at the origin
mesh(x,y,z,'facecolor','m','edgecolor','k', 'facealpha',0.4);
xyz = rotate3d(e1,e2,[x(:),y(:),z(:)]); % rotate the ellipsoid coordinate
xp = reshape(xyz(:,1), size(x)); % recover the coordinate of x-component
yp = reshape(xyz(:,2), size(y)); % recover the coordinate of y-component
zp = reshape(xyz(:,3), size(z)); % recover the coordinate of z-component
mesh(xp,yp,zp,'facecolor','b','edgecolor','w', 'facealpha',0.4); % mesh the rotated ellipsoid
The figure speaks!
rotate3d function is given here
function p = rotate3d(e1, e2, coordinate)
% coordinate must be n*3 matrix
% rotate x-axis to e1 vector
% rotate y-axis to e2 vector
% rotate z-axis to cross(e1,e2) vector
e1 = e1 / norm(e1);
e2 = e2 / norm(e2);
e1 = reshape(e1,1,3);
e2 = reshape(e2,1,3);
e3 = cross(e1, e2);
R = [e1;e2;e3];
p = coordinate*R;
end
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