I intend to fit a 2D Gaussian function to images showing a laser beam to get its parameters like FWHM and position. So far I tried to understand how to define a 2D Gaussian function in Python and how to pass x and y variables to it.
I've written a little script which defines that function, plots it, adds some noise to it and then tries to fit it using curve_fit. Everything seems to work except the last step in which I try to fit my model function to the noisy data. Here is my code:
import scipy.optimize as opt
import numpy as np
import pylab as plt
#define model function and pass independant variables x and y as a list
def twoD_Gaussian((x,y), amplitude, xo, yo, sigma_x, sigma_y, theta, offset):
xo = float(xo)
yo = float(yo)
a = (np.cos(theta)**2)/(2*sigma_x**2) + (np.sin(theta)**2)/(2*sigma_y**2)
b = -(np.sin(2*theta))/(4*sigma_x**2) + (np.sin(2*theta))/(4*sigma_y**2)
c = (np.sin(theta)**2)/(2*sigma_x**2) + (np.cos(theta)**2)/(2*sigma_y**2)
return offset + amplitude*np.exp( - (a*((x-xo)**2) + 2*b*(x-xo)*(y-yo) + c*((y-yo)**2)))
# Create x and y indices
x = np.linspace(0, 200, 201)
y = np.linspace(0, 200, 201)
x,y = np.meshgrid(x, y)
#create data
data = twoD_Gaussian((x, y), 3, 100, 100, 20, 40, 0, 10)
# plot twoD_Gaussian data generated above
plt.figure()
plt.imshow(data)
plt.colorbar()
# add some noise to the data and try to fit the data generated beforehand
initial_guess = (3,100,100,20,40,0,10)
data_noisy = data + 0.2*np.random.normal(size=len(x))
popt, pcov = opt.curve_fit(twoD_Gaussian, (x,y), data_noisy, p0 = initial_guess)
Here is the error message I get when running the script using winpython 64-bit Python 2.7:
ValueError: object too deep for desired array
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
File "C:\Python\WinPython-64bit-2.7.6.2\python-2.7.6.amd64\lib\site-packages\spyderlib\widgets\externalshell\sitecustomize.py", line 540, in runfile
execfile(filename, namespace)
File "E:/Work Computer/Software/Python/Fitting scripts/2D Gaussian function fit/2D_Gaussian_LevMarq_v2.py", line 39, in <module>
popt, pcov = opt.curve_fit(twoD_Gaussian, (x,y), data_noisy, p0 = initial_guess)
File "C:\Python\WinPython-64bit-2.7.6.2\python-2.7.6.amd64\lib\site-packages\scipy\optimize\minpack.py", line 533, in curve_fit
res = leastsq(func, p0, args=args, full_output=1, **kw)
File "C:\Python\WinPython-64bit-2.7.6.2\python-2.7.6.amd64\lib\site-packages\scipy\optimize\minpack.py", line 378, in leastsq
gtol, maxfev, epsfcn, factor, diag)
minpack.error: Result from function call is not a proper array of floats.
What is it that am I doing wrong? Is it how I pass the independent variables to the model function/curve_fit?
The output of twoD_Gaussian needs to be 1D. What you can do is add a .ravel() onto the end of the last line, like this:
def twoD_Gaussian((x, y), amplitude, xo, yo, sigma_x, sigma_y, theta, offset):
xo = float(xo)
yo = float(yo)
a = (np.cos(theta)**2)/(2*sigma_x**2) + (np.sin(theta)**2)/(2*sigma_y**2)
b = -(np.sin(2*theta))/(4*sigma_x**2) + (np.sin(2*theta))/(4*sigma_y**2)
c = (np.sin(theta)**2)/(2*sigma_x**2) + (np.cos(theta)**2)/(2*sigma_y**2)
g = offset + amplitude*np.exp( - (a*((x-xo)**2) + 2*b*(x-xo)*(y-yo)
+ c*((y-yo)**2)))
return g.ravel()
You'll obviously need to reshape the output for plotting, e.g:
# Create x and y indices
x = np.linspace(0, 200, 201)
y = np.linspace(0, 200, 201)
x, y = np.meshgrid(x, y)
#create data
data = twoD_Gaussian((x, y), 3, 100, 100, 20, 40, 0, 10)
# plot twoD_Gaussian data generated above
plt.figure()
plt.imshow(data.reshape(201, 201))
plt.colorbar()
Do the fitting as before:
# add some noise to the data and try to fit the data generated beforehand
initial_guess = (3,100,100,20,40,0,10)
data_noisy = data + 0.2*np.random.normal(size=data.shape)
popt, pcov = opt.curve_fit(twoD_Gaussian, (x, y), data_noisy, p0=initial_guess)
And plot the results:
data_fitted = twoD_Gaussian((x, y), *popt)
fig, ax = plt.subplots(1, 1)
ax.hold(True)
ax.imshow(data_noisy.reshape(201, 201), cmap=plt.cm.jet, origin='bottom',
extent=(x.min(), x.max(), y.min(), y.max()))
ax.contour(x, y, data_fitted.reshape(201, 201), 8, colors='w')
plt.show()
To expand on Dietrich's answer a bit, I got the following error when running the suggested solution with Python 3.4 (on Ubuntu 14.04):
def twoD_Gaussian((x, y), amplitude, xo, yo, sigma_x, sigma_y, theta, offset):
^
SyntaxError: invalid syntax
Running 2to3 suggested the following simple fix:
def twoD_Gaussian(xdata_tuple, amplitude, xo, yo, sigma_x, sigma_y, theta, offset):
(x, y) = xdata_tuple
xo = float(xo)
yo = float(yo)
a = (np.cos(theta)**2)/(2*sigma_x**2) + (np.sin(theta)**2)/(2*sigma_y**2)
b = -(np.sin(2*theta))/(4*sigma_x**2) + (np.sin(2*theta))/(4*sigma_y**2)
c = (np.sin(theta)**2)/(2*sigma_x**2) + (np.cos(theta)**2)/(2*sigma_y**2)
g = offset + amplitude*np.exp( - (a*((x-xo)**2) + 2*b*(x-xo)*(y-yo)
+ c*((y-yo)**2)))
return g.ravel()
The reason for this is that automatic tuple unpacking when it is passed to a function as a parameter has been removed as of Python 3. For more information see here: PEP 3113
curve_fit() wants to the dimension of xdata to be (2,n*m) and not (2,n,m). ydata should have shape (n*m) not (n,m) respectively. So you use ravel() to flatten your 2D arrays:
xdata = np.vstack((xx.ravel(),yy.ravel()))
ydata = data_noisy.ravel()
popt, pcov = opt.curve_fit(twoD_Gaussian, xdata, ydata, p0=initial_guess)
By the way: I'm not sure if the parametrization with the trigonometric terms is the best one. E.g., taking the one described here might be a bit more robust under numerical aspects and large deviations.
来源:https://stackoverflow.com/questions/21566379/fitting-a-2d-gaussian-function-using-scipy-optimize-curve-fit-valueerror-and-m