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| R2012a Documentation → Aerospace Toolbox | |
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q = dcm2quat(n)
q = dcm2quat(n) calculates the quaternion, q, for a given direction cosine matrix, n. Input n is a 3-by-3-by-m matrix of orthogonal direction cosine matrices. The direction cosine matrix performs the coordinate transformation of a vector in inertial axes to a vector in body axes. q returns an m-by-4 matrix containing m quaternions. q has its scalar number as the first column.
Determine the quaternion from direction cosine matrix:
dcm = [0 1 0; 1 0 0; 0 0 1];
q = dcm2quat(dcm)
q =
0.7071 0 0 0Determine the quaternions from multiple direction cosine matrices:
dcm = [ 0 1 0; 1 0 0; 0 0 1];
dcm(:,:,2) = [ 0.4330 0.2500 -0.8660; ...
0.1768 0.9186 0.3536; ...
0.8839 -0.3062 0.3536];
q = dcm2quat(dcm)
q =
0.7071 0 0 0
0.8224 0.2006 0.5320 0.0223angle2dcm | angle2quat | dcm2angle | quat2angle | quat2dcm
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