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I need the angular velocity expressed as a quaternion for updating the quaternion every frame with the following expression in OpenCV:


My angular velocity is

Mat w;  //1x3

I would like to obtain a quaternion form of the angles

Mat qwt;   //1x4

I couldn't find information about this, any ideas?

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A quaternion represents a rotation or an orientation. The angular velocity is the derivative of it. It is unclear what you are trying to do. – Ali Aug 21 '12 at 11:40
I guess he wants to express the angular velocity as a qaternion to update the quaternion value as this product: q(k)=q(k-1)*qwt – Jav_Rock Aug 21 '12 at 11:44
Being qwt the angular velocity expressed as a quaternion – Jav_Rock Aug 21 '12 at 11:44
Yes, thats it! I want to update quaternion value each frame using the angular velocity. – Mar de Romos Aug 21 '12 at 11:46
Alright, then if you use angular velocity each frame be careful because w should be multiplied by time between frames. – Jav_Rock Aug 21 '12 at 11:51
up vote 6 down vote accepted

If I understand properly you want to pass from this Axis Angle form to a quaternion.

As shown in the link, first you need to calculate the module of the angular velocity (multiplied by delta(t) between frames), and then apply the formulas.

A sample function for this would be

// w is equal to angular_velocity*time_between_frames
void quatFromAngularVelocity(Mat& qwt,const Mat&w)
    const float x =<float>(0);
    const float y =<float>(1);
    const float z =<float>(2);
    const float angle = sqrt(x*x + y*y + z*z);  //module of angular velocity

    if (angle > 0.0) //the formulas from the link
    {<float>(0)= x*sin(angle/2.0f)/angle;<float>(1)= y*sin(angle/2.0f)/angle;<float>(2)= z*sin(angle/2.0f)/angle;<float>(3)= cos(angle/2.0f);
    }else    //to avoid illegal expressions
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Thanks a lot, that is just what I was looking for. Nice link too!!! – Mar de Romos Aug 21 '12 at 11:49

Almost every transformation regarding quaternions, 3D space, etc is gathered at this website.

You will find time derivatives for quaternions also.

I find it useful the explanation of the physical meaning of a quaternion, which can be seen as an axis angle where

a = angle of rotation
x,y,z = axis of rotation.

Then the conversion uses:

q = cos(a/2) + i ( x * sin(a/2)) + j (y * sin(a/2)) + k ( z * sin(a/2))

Here is explained thoroughly.

Hope this helped to make it clearer.

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yeah, that website is the Bible of quaternions!!!!!!!! – Jav_Rock Aug 21 '12 at 19:41
Very useful, thanks! – Mar de Romos Aug 21 '12 at 19:45

One little trick to go with this and get rid of those cos and sin functions. The time derivative of a quaternion q(t) is:

dq(t)/dt = 0.5 * x(t) * q(t)

Where, if the angular velocity is {w0, w1, w2} then x(t) is a quaternion of {0, w0, w1, w2}. See David H Eberly's book section 10.5 for proof

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