If you want something more sophisticated that smooths the data, you should look into a a digital filter algorithm. It's not hard to implement if you can cut through the engineering jargon. The classic method is Savitzky-Golay
If you have the last n
samples stored in an array y
and each sample is equally spaced in time, then you can calculate the derivative using something like this:
deriv = 0
coefficient = (1,-8,0,8,-1)
N = 5 # points
h = 1 # second
for i range(0,N):
deriv += y[i] * coefficient[i]
deriv /= (12 * h)
This example happens to be a N=5 filter of "3/4 (cubic/quartic)" filter. The bigger N
, the more points it is averaging and the smoother it will be, but also the latency will be higher. You'll have to wait N/2 points to get the derivative at time "now".
For more coefficients, look here at the Appendix
https://en.wikipedia.org/wiki/Savitzky%E2%80%93Golay_filter