# How to compute angular velocity using numpy-quaternion

I have a time series, where each measurement is a quaternion. I would like to estimate angular velocity between two measurements. At the moment I use pretty straightforward approach:

``````wheel_angular_dists = []
for pair in wheel_quats:
diff = t * np.conj(t)

angle = diff.angle

wheel_angular_dists.append(angle)

df_wheel_dists = pd.Series(wheel_angular_dists)
``````

It kind of suits my needs, but now I'm curious about a proper way of solving this task. For example, I've found a function

quaternion.quaternion_time_series.anglular_velocity(R, t)

but I failed to use it due to errors:

``````import quaternion as Q
import numpy as np

orient_prev = Q.from_float_array([0.100846663117, 0, 0, -0.994901955128])
orient_cur = Q.from_float_array([0.100869312882, 0, 0, -0.994899690151])

R = np.array([orient_prev, orient_cur])
t = np.array([0.0, 1.0])

vel = Q.quaternion_time_series.angular_velocity(R, t)

...

error: (m>k) failed for hidden m: fpcurf0:m=2
``````

Could someone highlight a proper solution from practical experience?