I want to plot an approximation of probability density function based on a sample that I have; The curve that mimics the histogram behaviour. I can have samples as big as I want.
closed as not a real question by Hassan Syed, bensiu, Robert Longson, Jan Turoň, Andrea Ligios Jun 17 '13 at 15:59
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If you want to plot a distribution, and you know it, define it as a function, and plot it as so:
import numpy as np from matplotlib import pyplot as plt def my_dist(x): return np.exp(-x ** 2) x = np.arange(-100, 100) p = my_dist(x) plt.plot(x, p) plt.show()
If you don't have the exact distribution as an analytical function, perhaps you can generate a large sample, take a histogram and somehow smooth the data:
import numpy as np from scipy.interpolate import UnivariateSpline from matplotlib import pyplot as plt N = 1000 n = N//10 s = np.random.normal(size=N) # generate your data sample with N elements p, x = np.histogram(s, bins=n) # bin it into n = N//10 bins x = x[:-1] + (x - x)/2 # convert bin edges to centers f = UnivariateSpline(x, p, s=n) plt.plot(x, f(x)) plt.show()
You can increase or decrease
s (smoothing factor) within the
UnivariateSpline function call to increase or decrease smoothing. For example, using the two you get:
What you have to do is to use the gaussian_kde from the scipy.stats.kde package.
given your data you can do something like this:
from scipy.stats.kde import gaussian_kde from numpy import linspace # create fake data data = randn(1000) # this create the kernel, given an array it will estimate the probability over that values kde = gaussian_kde( data ) # these are the values over wich your kernel will be evaluated dist_space = linspace( min(data), max(data), 100 ) # plot the results plt.plot( dist_space, kde(dist_space) )
The kernel density can be configured at will and can handle N-dimensional data with ease. It will also avoid the spline distorsion that you can see in the plot given by askewchan.