I have some data, y
vs x
, which I would like to interpolate at a finer resolution xx
using a cubic spline.
Here is my dataset:
import numpy as np
print np.version.version
import scipy
print scipy.version.version
1.9.2
0.15.1
x = np.array([0.5372973, 0.5382103, 0.5392305, 0.5402197, 0.5412042, 0.54221, 0.543209,
0.5442277, 0.5442277, 0.5452125, 0.546217, 0.5472153, 0.5482086,
0.5492241, 0.5502117, 0.5512249, 0.5522136, 0.5532056, 0.5532056,
0.5542281, 0.5552039, 0.5562125, 0.5567836])
y = np.array([0.01, 0.03108, 0.08981, 0.18362, 0.32167, 0.50941, 0.72415, 0.90698,
0.9071, 0.97955, 0.99802, 1., 0.97863, 0.9323, 0.85344, 0.72936,
0.56413, 0.36997, 0.36957, 0.17623, 0.05922, 0.0163, 0.01, ])
xx = np.array([0.5372981, 0.5374106, 0.5375231, 0.5376356, 0.5377481, 0.5378606,
0.5379731, 0.5380856, 0.5381981, 0.5383106, 0.5384231, 0.5385356,
0.5386481, 0.5387606, 0.5388731, 0.5389856, 0.5390981, 0.5392106,
0.5393231, 0.5394356, 0.5395481, 0.5396606, 0.5397731, 0.5398856,
0.5399981, 0.5401106, 0.5402231, 0.5403356, 0.5404481, 0.5405606,
0.5406731, 0.5407856, 0.5408981, 0.5410106, 0.5411231, 0.5412356,
0.5413481, 0.5414606, 0.5415731, 0.5416856, 0.5417981, 0.5419106,
0.5420231, 0.5421356, 0.5422481, 0.5423606, 0.5424731, 0.5425856,
0.5426981, 0.5428106, 0.5429231, 0.5430356, 0.5431481, 0.5432606,
0.5433731, 0.5434856, 0.5435981, 0.5437106, 0.5438231, 0.5439356,
0.5440481, 0.5441606, 0.5442731, 0.5443856, 0.5444981, 0.5446106,
0.5447231, 0.5448356, 0.5449481, 0.5450606, 0.5451731, 0.5452856,
0.5453981, 0.5455106, 0.5456231, 0.5457356, 0.5458481, 0.5459606,
0.5460731, 0.5461856, 0.5462981, 0.5464106, 0.5465231, 0.5466356,
0.5467481, 0.5468606, 0.5469731, 0.5470856, 0.5471981, 0.5473106,
0.5474231, 0.5475356, 0.5476481, 0.5477606, 0.5478731, 0.5479856,
0.5480981, 0.5482106, 0.5483231, 0.5484356, 0.5485481, 0.5486606,
0.5487731, 0.5488856, 0.5489981, 0.5491106, 0.5492231, 0.5493356,
0.5494481, 0.5495606, 0.5496731, 0.5497856, 0.5498981, 0.5500106,
0.5501231, 0.5502356, 0.5503481, 0.5504606, 0.5505731, 0.5506856,
0.5507981, 0.5509106, 0.5510231, 0.5511356, 0.5512481, 0.5513606,
0.5514731, 0.5515856, 0.5516981, 0.5518106, 0.5519231, 0.5520356,
0.5521481, 0.5522606, 0.5523731, 0.5524856, 0.5525981, 0.5527106,
0.5528231, 0.5529356, 0.5530481, 0.5531606, 0.5532731, 0.5533856,
0.5534981, 0.5536106, 0.5537231, 0.5538356, 0.5539481, 0.5540606,
0.5541731, 0.5542856, 0.5543981, 0.5545106, 0.5546231, 0.5547356,
0.5548481, 0.5549606, 0.5550731, 0.5551856, 0.5552981, 0.5554106,
0.5555231, 0.5556356, 0.5557481, 0.5558606, 0.5559731, 0.5560856,
0.5561981, 0.5563106, 0.5564231, 0.5565356, 0.5566481, 0.5567606])
I am trying to fit using the scipy InterpolatedUnivariateSpline
method, interpolated with a 3rd order spline k=3
, and extrapolated as zeros ext='zeros'
:
import scipy.interpolate as interp
yspline = interp.InterpolatedUnivariateSpline(x,y, k=3, ext='zeros')
yvals = yspline(xx)
import matplotlib.pyplot as plt
fig = plt.figure()
ax = fig.add_subplot(111)
ax.plot(x, y, 'ko', label='Values')
ax.plot(xx, yvals, 'b-.', lw=2, label='Spline')
plt.xlim([min(x), max(x)])
However, as you can see in this image, my Spline returns NaN
values :(
Is there a reason? I am pretty sure my x values are all increasing, so I am stumped as to why this is happening. I have many other datasets I am fitting using this method, and it only fails on this specific set of data.
Any help is greatly appreciated. Thank you for reading.
The solution was that I have duplicate x
values, with differing y
values!
For this interpolation, you should rather use scipy.interpolate.interp1d
with the argument kind='cubic'
(see a related SO question )
I have yet to find a use case where InterpolatedUnivariateSpline
can be used in practice (or maybe I just don't understand its purpose). With your code I get,
So the interpolation works but shows extremely strong oscillations, making it unusable, which is typically the result I was getting with this interpolation method in the past. With a lower order spline (e.g. k=1
) that works better, but then you lose the advantage of cubic interpolation.