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I've been trying to fit a function to some data for a while using scipy.optimize.curve_fit:

from __future__ import (print_function,
                    division,
                    unicode_literals,
                    absolute_import)
import numpy as np
from scipy.optimize import curve_fit
import matplotlib.pyplot as mpl
x = np.array([0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19,     20, 21, 22, 23, 24, 25, 26, 27, 28, 29])
y = np.array([20.8, 20.9, 22.9, 25.2, 26.9, 28.3, 29.5, 30.7, 31.8, 32.9, 34.0, 35.3, 36.4, 37.5, 38.6, 39.6, 40.6, 41.6, 42.5, 43.2, 44.2, 45.0, 45.8, 46.5, 47.3, 48.0, 48.6, 49.2, 49.8, 50.4])
def f(x, a, b, c):
    return a/(1+b*x**c)
popt, pcov = curve_fit(f, x, y)
print(popt, np.sqrt(np.diag(pcov)), sep='\n')

But there always appears an error:

RuntimeWarning: divide by zero encountered in power
return a/(1+b*x**c)

Maybe someone can help me to avoid it? Any help would be much appreciated. Cheers!

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2 Answers 2

up vote 3 down vote accepted

Alright, two helpful tricks.

1st, replace 0 in your x with some really small number, such as 1e-8 (don't laugh, there is a core package in R actually does this, written by his name shall not be spoken and people use it all the time.) Actually I didn't get your RuntimeWarning at all. I am running scipy 0.12.0 and numpy 1.7.1. Maybe this is version dependent.

But we will get a very bad fit:

In [41]: popt, pcov
Out[41]: (array([  3.90107143e+01,  -3.08698757e+07,  -1.52971609e+02]), inf)

So, trick 2, instead of optimizing f function, we define a g function:

In [38]: def g(x, a, b, c):
   ....:     return b/a*x**c+1/a
   ....:

In [39]: curve_fit(g, x, 1/y) #Better fit
Out[39]:
(array([ 19.76748582,  -0.14499508,   0.44206688]),
 array([[ 0.29043958,  0.00899521,  0.01650935],
        [ 0.00899521,  0.00036082,  0.00070345],
        [ 0.01650935,  0.00070345,  0.00140253]]))

We can now use the resulting parameter vector as starting vector to optimize f(). As curve_fit is a nonlinear least square method, parameter optimizes g() is not necessary the parameter optimizes f(), but hopefully it will be close. The covariance matrices are very different of course.

In [78]: curve_fit(f, x, y, p0=curve_fit(g, x, 1/y)[0]) #Alternative Fit
Out[78]:
(array([ 18.0480446 ,  -0.22881647,   0.31200106]),
 array([[ 1.14928169,  0.03741604,  0.03897652],
        [ 0.03741604,  0.00128511,  0.00136315],
        [ 0.03897652,  0.00136315,  0.00145614]]))

The comparison of the results:

enter image description here

Now the result is pretty good.

share|improve this answer
    
Thank you, I use Numpy 1.7.1 and Scipy 0.13.0 and simply didn't get that a plot was created although the error-message has been displayed. You're absolutely right that the function is really bad, so pcov diverges. I wanted numpy to display me the square root of diag(pcov) to get the deviation but in this case it simply is not possible and that is the reason for why I did not even get those bad fitting-values. I fitted the data with a second degree polynomial now. –  marsch Nov 24 '13 at 10:46
    
Glad it works. But if the original function is very important to you, you can still fit the original function (see new edit) by using the resulting parameter from optimizing g(). Now the covariance matrix looks quite good. –  CT Zhu Nov 24 '13 at 16:22

Your x values start at 0. If for some reason the parameter c is negative during the calculation, then you will evaluate 0 raised to a negative exponent, which is a division by zero: for p>0 we have

0**(-p) = 1/(0**p)
        = 1/0
share|improve this answer
    
Ok, I understand what you mean. Do you have any idea how to solve this problem and get the data fitted? –  marsch Nov 23 '13 at 18:22

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