## New answers tagged euler-angles

0

Why not build the quaternions directly?
Eigen::Quaterniond rollQuaternion(cos(0.5*roll), sin(0.5*roll), 0.0, 0.0);
Eigen::Quaterniond pitchQuaternion(cos(0.5*roll), 0.0, sin(0.5*roll), 0.0);
Eigen::Quaterniond yawQuaternion(cos(0.5*roll), 0.0, 0.0, sin(0.5*roll));
Eigen::Quaterniond finalOrientation = rollQuaternion*pitchQuaternion*yawQuaternion*current_q;
...

2

Your example is almost identical to the example
Matrix3f m;
m = AngleAxisf(0.25*M_PI, Vector3f::UnitX())
* AngleAxisf(0.5*M_PI, Vector3f::UnitY())
* AngleAxisf(0.33*M_PI, Vector3f::UnitZ());
Have you tried printing the result of that combined rotation matrix? I will bet it is diagonal 1,1,1 when the angles are zero.
I'm confused about your use of ...

1

You can use Quaternion.FromToRotation to calculate offset, something like:
var offset = Quaternion.FromToRotation(Vector3.up, imuUp);
transform.rotation *= offset;

0

I finally found a solution to this using the links below. There may be an easier solution, but nothing else I tried gave me the intended effect. It is worth noting that this was tested with a Threejs camera that is -z facing where +y is up. My unity camera is -z facing with +y facing up. If you have a +z facing camera, which is common in Unity, simply child ...

0

Problem 1:
Granted I only minored in math but I believe you should simply be able to do a straight mapping as follows for points:
(X, Y, Z) => (X, Y, -Z)
And that should work both ways.
As far as I remember once you convert between coordinates the math should be the same, just make sure you work all in one system or the other to make your life easier. ...

0

It's an issue with notation conventions, since the two cases (MATLAB versus the link you posted) refer to opposite orders of rotation. If you want to use the MATLAB function and continue to use the convention from the link you posted, as a possible workaround you can call the function with 'zyx' and invert the signs of all the angles, i.e.
dcm = ...

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