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I'm reading this paper. In this paper on page 286 they say they use cubic spline interpolation to ensure the existence of continuous first-order differential and second-order differentials.

I'm currently trying to do this in python. From this sentence I deduce they want to make sure the first and second order derivative of the splines which are next to each other, are the same. My question is now, how can I do this with scipy ? I found this:

Where there is a parameter der (The order of derivative of the spline to compute) . Is this the parameter which as to be 2 then ?

*A follow-up questio*n regarding this, they use the first-order differential points later on. Can I assume these are just the first-order derivates of each splines ? How is it possible to get these ?

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up vote 3 down vote accepted

Splines computed by scipy.interpolate that are of order k have continuous 1 ... k-1:th derivatives. For your case order k=3 would have continuous first and second derivative. You can check that this is true yourself via numerical differentiation of the spline:

import numpy as np
from scipy import interpolate
import matplotlib.pyplot as plt
x = np.linspace(0, 10, 100)
y = np.sin(x)
spl = interpolate.splrep(x, y, k=3)
xx = np.linspace(0, 10, 100000)
yy = interpolate.splev(xx, spl)
d1 = np.diff(yy) / np.diff(xx)
d2 = np.diff(d1) / np.diff(xx[1:])
d3 = np.diff(d2) / np.diff(xx[1:-1])
plt.plot(xx[1:], d1)
plt.title('first derivative')
plt.plot(xx[1:-1], d2)
plt.title('second derivative')
plt.plot(xx[2:-1], d3)
plt.title('third derivative')

The third derivative is the first one showing discontinuities.

Taking the second derivative can indeed be done directly via splev(..., der=2).

(Without reading the paper, I can't comment on your second question.)

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the paper: :) , page 286 in the second half. – Ojtwist Apr 11 '13 at 10:06

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