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python - Fitting a closed curve to a set of points

I have a set of points pts which form a loop and it looks like this:

enter image description here

This is somewhat similar to 31243002, but instead of putting points in between pairs of points, I would like to fit a smooth curve through the points (coordinates are given at the end of the question), so I tried something similar to scipy documentation on Interpolation:

values = pts
tck = interpolate.splrep(values[:,0], values[:,1], s=1)
xnew = np.arange(2,7,0.01)
ynew = interpolate.splev(xnew, tck, der=0)

but I get this error:

ValueError: Error on input data

Is there any way to find such a fit?

Coordinates of the points:

pts = array([[ 6.55525 ,  3.05472 ],
   [ 6.17284 ,  2.802609],
   [ 5.53946 ,  2.649209],
   [ 4.93053 ,  2.444444],
   [ 4.32544 ,  2.318749],
   [ 3.90982 ,  2.2875  ],
   [ 3.51294 ,  2.221875],
   [ 3.09107 ,  2.29375 ],
   [ 2.64013 ,  2.4375  ],
   [ 2.275444,  2.653124],
   [ 2.137945,  3.26562 ],
   [ 2.15982 ,  3.84375 ],
   [ 2.20982 ,  4.31562 ],
   [ 2.334704,  4.87873 ],
   [ 2.314264,  5.5047  ],
   [ 2.311709,  5.9135  ],
   [ 2.29638 ,  6.42961 ],
   [ 2.619374,  6.75021 ],
   [ 3.32448 ,  6.66353 ],
   [ 3.31582 ,  5.68866 ],
   [ 3.35159 ,  5.17255 ],
   [ 3.48482 ,  4.73125 ],
   [ 3.70669 ,  4.51875 ],
   [ 4.23639 ,  4.58968 ],
   [ 4.39592 ,  4.94615 ],
   [ 4.33527 ,  5.33862 ],
   [ 3.95968 ,  5.61967 ],
   [ 3.56366 ,  5.73976 ],
   [ 3.78818 ,  6.55292 ],
   [ 4.27712 ,  6.8283  ],
   [ 4.89532 ,  6.78615 ],
   [ 5.35334 ,  6.72433 ],
   [ 5.71583 ,  6.54449 ],
   [ 6.13452 ,  6.46019 ],
   [ 6.54478 ,  6.26068 ],
   [ 6.7873  ,  5.74615 ],
   [ 6.64086 ,  5.25269 ],
   [ 6.45649 ,  4.86206 ],
   [ 6.41586 ,  4.46519 ],
   [ 5.44711 ,  4.26519 ],
   [ 5.04087 ,  4.10581 ],
   [ 4.70013 ,  3.67405 ],
   [ 4.83482 ,  3.4375  ],
   [ 5.34086 ,  3.43394 ],
   [ 5.76392 ,  3.55156 ],
   [ 6.37056 ,  3.8778  ],
   [ 6.53116 ,  3.47228 ]])
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Actually, you were not far from the solution in your question.

Using scipy.interpolate.splprep for parametric B-spline interpolation would be the simplest approach. It also natively supports closed curves, if you provide the per=1 parameter,

import numpy as np
from scipy.interpolate import splprep, splev
import matplotlib.pyplot as plt

# define pts from the question

tck, u = splprep(pts.T, u=None, s=0.0, per=1) 
u_new = np.linspace(u.min(), u.max(), 1000)
x_new, y_new = splev(u_new, tck, der=0)

plt.plot(pts[:,0], pts[:,1], 'ro')
plt.plot(x_new, y_new, 'b--')
plt.show()

enter image description here

Fundamentally, this approach not very different from the one in @Joe Kington's answer. Although, it will probably be a bit more robust, because the equivalent of the i vector is chosen, by default, based on the distances between points and not simply their index (see splprep documentation for the u parameter).


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