Why the coordinate doesn't make sense after rotation matrix (rotx)?

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Hello,
I got confused about the rotation matrix results. I want to rotate the structure around the z-axis with theta first, and then rotate around x-axis for phi.
theta=60;
phi=30;
R=rotx(phi)*rotz(theta);
R*[1; 0; 0];
% use rotation matrix to transform coordinate
% [X,Y,Z] is original coordinate
[X,Y,Z]=ndgrid(xa,ya,za);
[ie,je,ke]=size(X);
a=[X(:),Y(:),Z(:)];
% new coordinate
anew=R*(a.');
The result is [0.5; 0.75;0.433] for the vector of x-axis. But in my opinion, the new x-axis should be [0.5;-0.866;0]. I am not sure whether my understanding is wrong. Whether I can use rotation matrix to get the correct coordinate?
  1 Commento
Ameer Hamza
Ameer Hamza il 17 Giu 2020
Which rotx() function are you using? One from MATLAB's phsased Phased Array System Toolbox or some other source?

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David Goodmanson
David Goodmanson il 18 Giu 2020
Hi Jiali,
from your results it looks like you are using the usual form of the rotation matrices,
function M = Rx(theta)
% angle is in DEGREES
c = cosd(theta); s = sind(theta);
M = [1 0 0
0 c -s
0 s c]
end
function M = Ry(theta)
% angle is in DEGREES
c = cosd(theta); s = sind(theta);
M = [ c 0 s
0 1 0
-s 0 c]
end
function M = Rz(theta)
% angle is in DEGREES
c = cosd(theta); s = sind(theta);
M = [c -s 0
s c 0
0 0 1]
end
which produce counterclockwise rotation of an object when looking down at the appropriate rotation axis coming up out of the page.
By 'rotating the structure' it sounds like you meant rotating the object, leaving the axes in place. In that case
Rx(30)*Rz(60)*[1;0 0]
ans =
0.5000
0.7500
0.4330
is correct. On the other hand, if you wish to rotate the coordinate axes and leave the object in place, then for the same physical rotation you change the signs of rotation and reverse the order of matrix mutiplication:
Rz(-60)*Rx(-30)*[1;0 0]
ans =
0.5000
-0.8660
0
  1 Commento
hknatas
hknatas il 10 Nov 2023
Modificato: hknatas il 10 Nov 2023
Can you provide me some references about this topic? I have a similar problem and with your solution I obtained the correct results. However, I couldn't find any references explaining what you've written. All references I followed so far just gives the conventional DCM explanation.
Let's assume that I have two different reference frames and a point. The point is represented with respect to the first frame with a vector. I would like to express the exact same point with respect to the second frame. I know the direction cosine matrix (DCM) between these two reference frames. As far as I understood from your answer, it is not enough to multiply this DCM with the vector that is representing the point with respect to the first frame. However, all references I examined so far claim that this is the way. I am really confused and would like further explanation if you can provide some references.
Edit: Let me clarify my confusion with an example. I have two reference frames. Let's name them as the first and second frames. I can obtain my second frame by rotating my first frame -30 degree around the positive x-axis and then rotate 180 degrees around the newly formed z-axis. So according to the math I know, I calculate the complete rotation as:
However, when I use "Rotation Angle to DCM" block in MATLAB/Simulink, I obtain:
which is different.
Now, let's assume that I have a point represented as [0,0,1] in the first frame. I would like to obtain that point's vector representation in the second frame so I make the calculation:
However, the correct answer [0, 0.5, 0.8660]. If I used the DCM that obtained from the MATLAB/Simulink, then I conclude the correct answer.
Thanks in advance,
Kind regards.

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