I am sorry for the probably stupid question but I am trying now for hours to estimate a density from a set of 2d data. Let's assume my data is given by the array: sample = np.random.uniform(0,1,size=(50,2))
. I just want to use scipys scikit learn package to estimate the density from the sample array (which is here of course a 2d uniform density) and I am trying the following:
import numpy as np
from sklearn.neighbors.kde import KernelDensity
from matplotlib import pyplot as plt
sp = 0.01
samples = np.random.uniform(0,1,size=(50,2)) # random samples
x = y = np.linspace(0,1,100)
X,Y = np.meshgrid(x,y) # creating grid of data , to evaluate estimated density on
kde = KernelDensity(kernel='gaussian', bandwidth=0.2).fit(samples) # creating density from samples
kde.score_samples(X,Y) # I want to evaluate the estimated density on the X,Y grid
But the last step always yields the error: score_samples() takes 2 positional arguments but 3 were given
So probably .score_samples cannot take a grid as input, but there no tutorials/docs for the 2d case so I don't know how to fix this issue. It would be really great if someone could help.
Looking at the Kernel Density Estimate of Species Distributions example, you have to package the x,y data together (both the training data and the new sample grid).
Below is a function that simplifies the sklearn API.
from sklearn.neighbors import KernelDensity
def kde2D(x, y, bandwidth, xbins=100j, ybins=100j, **kwargs):
"""Build 2D kernel density estimate (KDE)."""
# create grid of sample locations (default: 100x100)
xx, yy = np.mgrid[x.min():x.max():xbins,
y.min():y.max():ybins]
xy_sample = np.vstack([yy.ravel(), xx.ravel()]).T
xy_train = np.vstack([y, x]).T
kde_skl = KernelDensity(bandwidth=bandwidth, **kwargs)
kde_skl.fit(xy_train)
# score_samples() returns the log-likelihood of the samples
z = np.exp(kde_skl.score_samples(xy_sample))
return xx, yy, np.reshape(z, xx.shape)
This gives you the xx, yy, zz needed for something like a scatter or pcolormesh plot. I've copied the example from the scipy page on the gaussian_kde function.
import numpy as np
import matplotlib.pyplot as plt
m1 = np.random.normal(size=1000)
m2 = np.random.normal(scale=0.5, size=1000)
x, y = m1 + m2, m1 - m2
xx, yy, zz = kde2D(x, y, 1.0)
plt.pcolormesh(xx, yy, zz)
plt.scatter(x, y, s=2, facecolor='white')