# Curve fit with parameter bounds

I have experimental data :

``````xdata = [85,86,87,88,89,90,91,91.75,93,96,100,101,102,103,104,105,106,107.25,108.25,109,109.75,111,112,112.75,114,115.25,116,116.75,118,119.25,120,121,122,122.5,123.5,125.25,126,126.75,127.75,129.25,130.25,131,131.75,133,134.25,135,136,137,138,139,140,141,142,143,144,144.75,146,146.75,148,149.25,150,150.5,152,153.25,154,155,156.75,158,159,159.75,161,162,162.5,164,165,166]

ydata = [0.2,0.21,0.18,0.21,0.19,0.2,0.21,0.2,0.18,0.204,0.208,0.2,0.21,0.25,0.2,0.19,0.216,0.22,0.224,0.26,0.229,0.237,0.22,0.246,0.25,0.264,0.29,0.274,0.29,0.3,0.27,0.32,0.38,0.348,0.372,0.398,0.35,0.42,0.444,0.48,0.496,0.55,0.51,0.54,0.57,0.51,0.605,0.57,0.65,0.642,0.6,0.66,0.7,0.688,0.69,0.705,0.67,0.717,0.69,0.728,0.75,0.736,0.73,0.744,0.72,0.76,0.752,0.74,0.76,0.7546,0.77,0.74,0.758,0.74,0.78,0.76]
``````

And the formula `f(x) = m1 + m2 / (1 + e ^ (-m3*(x - m4)))`. I need to find ```m1, m2, m3, m4``` with least square method, where 0.05 < m1 < 0.3 0.3 < m2 < 0.8 0.05 < m3 < 0.5 100 < m4 < 200.

I use `curve_fit` and my function is :

``````def f(xdata, m1, m2, m3, m4):
if m1 > 0.05 and m1 < 0.3 and \
m2 > 0.3 and m2 < 0.8 and \
m3 > 0.05 and m3 < 0.5 and \
m4 > 100 and m4 < 200:
return m1 + (m2 * 1. / (1 + e ** (-m3 * (x - m4))))
return (abs(m1) + abs(m2) + abs(m3) + abs(m4)) * 1e14 # some large number
``````

But the program return the error: `RuntimeError: Optimal parameters not found: Number of calls to function has reached maxfev = 1000.`

What to do?

``````import numpy as np
from scipy.optimize import curve_fit
from math import e

xdata = np.array([85,86,87,88,89,90,91,91.75,93,96,100,101,102,103,104,105,106,107.25,108.25,109,109.75,111,112,112.75,114,115.25,116,116.75,118,119.25,120,121,122,122.5,123.5,125.25,126,126.75,127.75,129.25,130.25,131,131.75,133,134.25,135,136,137,138,139,140,141,142,143,144,144.75,146,146.75,148,149.25,150,150.5,152,153.25,154,155,156.75,158,159,159.75,161,162,162.5,164,165,166])`
ydata = np.array([0.2,0.21,0.18,0.21,0.19,0.2,0.21,0.2,0.18,0.204,0.208,0.2,0.21,0.25,0.2,0.19,0.216,0.22,0.224,0.26,0.229,0.237,0.22,0.246,0.25,0.264,0.29,0.274,0.29,0.3,0.27,0.32,0.38,0.348,0.372,0.398,0.35,0.42,0.444,0.48,0.496,0.55,0.51,0.54,0.57,0.51,0.605,0.57,0.65,0.642,0.6,0.66,0.7,0.688,0.69,0.705,0.67,0.717,0.69,0.728,0.75,0.736,0.73,0.744,0.72,0.76,0.752,0.74,0.76,0.7546,0.77,0.74,0.758,0.74,0.78,0.76])

def f(xdata, m1, m2, m3, m4):
if m1 > 0.05 and m1 < 0.3 and \
m2 > 0.3 and m2 < 0.8 and \
m3 > 0.05 and m3 < 0.5 and \
m4 > 100 and m4 < 200:
return m1 + (m2 * 1. / (1 + e ** (-m3 * (x - m4))))
return (abs(m1) + abs(m2) + abs(m3) + abs(m4)) * 1e14

print curve_fit(f, xdata, ydata)
``````
• Since it's not the Python code that is your problem, you'll probably get a better answer to your question at math.stackexchange.com – Tom Nov 11 '15 at 15:49

Set the initial parameters to useful values:

``````curve_fit(f, xdata, ydata, p0=(0.1, 0.5, 0.1, 150)))
``````

Also, use `xdata` instead of `x` in your function `f`:

``````return m1 + (m2 * 1. / (1 + e ** (-m3 * (xdata - m4))))
``````

This is my modified program:

``````def f(xdata, m1, m2, m3, m4):
if (0.05 < m1 < 0.3 and
0.3 < m2 < 0.8 and
0.05 < m3 < 0.5 and
100 < m4 < 200):
return m1 + (m2 * 1. / (1 + e ** (-m3 * (xdata - m4))))
return 1e38

print(curve_fit(f, xdata, ydata, p0=(0.1, 0.5, 0.1, 150)))
``````

Result:

``````(array([   0.19567035,    0.56792559,    0.13434829,  129.98915877]),
array([[  2.94622909e-05,  -3.96126279e-05,   1.99236054e-05,
7.48438125e-04],
[ -3.96126279e-05,   9.24145662e-05,  -4.62302643e-05,
5.04671621e-04],
[  1.99236054e-05,  -4.62302643e-05,   3.77364832e-05,
-2.43866126e-04],
[  7.48438125e-04,   5.04671621e-04,  -2.43866126e-04,
1.34700612e-01]]))
``````
• Thank you! x (instead of xdata) is a typo. – KhanSuleyman Nov 11 '15 at 17:09

Alternatively, you can also use lmfit which allows you to set boundaries easily and avoids the "ugly" `if` statement in your function. The parameters you obtain are the following:

``````m1:   0.19567033 +/- 0.005427 (2.77%) (init= 0.1)
m2:   0.56792558 +/- 0.009613 (1.69%) (init= 0.5)
m3:   0.13434829 +/- 0.006143 (4.57%) (init= 0.2)
m4:   129.989156 +/- 0.367009 (0.28%) (init= 150)
``````

and the output you obtain looks like this:

Here is the entire code with several comments; let me know if you have additional questions:

``````from lmfit import minimize, Parameters, Parameter, report_fit
import numpy as np

xdata = np.array([85,86,87,88,89,90,91,91.75,93,96,100,101,102,103,104,105,106,107.25,108.25,109,109.75,111,112,112.75,114,115.25,116,116.75,118,119.25,120,121,122,122.5,123.5,125.25,126,126.75,127.75,129.25,130.25,131,131.75,133,134.25,135,136,137,138,139,140,141,142,143,144,144.75,146,146.75,148,149.25,150,150.5,152,153.25,154,155,156.75,158,159,159.75,161,162,162.5,164,165,166])
ydata = np.array([0.2,0.21,0.18,0.21,0.19,0.2,0.21,0.2,0.18,0.204,0.208,0.2,0.21,0.25,0.2,0.19,0.216,0.22,0.224,0.26,0.229,0.237,0.22,0.246,0.25,0.264,0.29,0.274,0.29,0.3,0.27,0.32,0.38,0.348,0.372,0.398,0.35,0.42,0.444,0.48,0.496,0.55,0.51,0.54,0.57,0.51,0.605,0.57,0.65,0.642,0.6,0.66,0.7,0.688,0.69,0.705,0.67,0.717,0.69,0.728,0.75,0.736,0.73,0.744,0.72,0.76,0.752,0.74,0.76,0.7546,0.77,0.74,0.758,0.74,0.78,0.76])

def fit_fc(params, x, data):
m1 = params['m1'].value
m2 = params['m2'].value
m3 = params['m3'].value
m4 = params['m4'].value

model = m1 + (m2 * 1. / (1 + np.exp(-m3 * (x - m4))))
return model - data #that's what you want to minimize

# create a set of Parameters
# 'value' is the initial condition
# 'min' and 'max' define your boundaries
params = Parameters()

# do fit, here with leastsq model
result = minimize(fit_fc, params, args=(xdata, ydata))

# calculate final result
final = ydata + result.residual

# write error report
report_fit(params)

#plot results
try:
import pylab
pylab.plot(xdata, ydata, 'k+')
pylab.plot(xdata, final, 'r')
pylab.show()
except:
pass
``````
• Oh, thank you very! I've tried this method, but done it incorrectly. I've write this line result = minimize(fit_fc, params, args=(xdata, ydata)) differently. – KhanSuleyman Nov 12 '15 at 11:00
• Yes, I saw the lmfit tag which was then actually not part of your question :) I really like it, quite powerful and easy to use. Glad it works now!) – Cleb Nov 12 '15 at 11:06
• Hah) Feel free to upvote the answer)) Thanks, I forgot about this function, because use stack overflow rarely. – KhanSuleyman Nov 12 '15 at 12:40
• I have some issues. It returns parameters' values which I typed, not fitted ones. – KhanSuleyman Nov 13 '15 at 6:31
• But the example on lmfit website works correctly, there are x is defined as the linspace and y is defined as the function values. – KhanSuleyman Nov 13 '15 at 6:43