# Plotting stochastic processes in Python

Say I have a stochastic process defined between `[0... N]`, e.g. `N=50`. For every location, I have several samples (e.g. `m=100` samples) (representing my sampling distribution at each location). One way to look at this is as a numpy 2D array of size `(m,N)`.

How can I plot this intuitively in `matplotlib`?

One possibility is to plot the process as a 1D plot along with an envelope of varying thickness and shade that captures the density of these distributions, something along the lines of what I show below. How can I do this in `matplotlib`?

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Histograms might help you? –  AbdulMomen عبدالمؤمن Oct 16 '13 at 20:19
Alternatively, this might be a good candidate for beanplots or possibly functional boxplots (if each of the `m` samples corresponds to a trace through the process, and they're fairly "similar"). –  Dougal Oct 16 '13 at 20:22
If you have drawings or diagrams of it, it would be much helpful. –  AbdulMomen عبدالمؤمن Oct 16 '13 at 20:27
@dougul - Thanks for the link . It is really cool . I liked your idea of beanplots –  Thothadri Rajesh Oct 16 '13 at 20:27
@blueMix I have added a few examples. –  Josh Oct 16 '13 at 20:38

## 1 Answer

For the first example, you can simply compute the percentiles at each fixed location, and then plot them using `plt.fill_between`.

something like this

``````# Last-modified: 16 Oct 2013 05:08:28 PM
import numpy as np
import matplotlib.pyplot as plt

# generating fake data
locations = np.arange(0, 50, 1)
medians   = locations/(1.0+(locations/5.0)**2)
disps     = 0.1+0.5*locations/(1.0+(locations/5.0)**2.)
points    = np.empty([50, 100])
for i in xrange(50) :
points[i,:] = np.random.normal(loc=medians[i], scale=disps[i], size=100)

# finding percentiles
pcts = np.array([20, 35, 45, 55, 65, 80])
layers = np.empty([50, 6])
for i in xrange(50) :
_sorted = np.sort(points[i,:])
layers[i, :] = _sorted[pcts]

# plot the layers
colors = ["blue", "green", "red", "green", "blue"]
for i in xrange(5) :
plt.fill_between(locations, layers[:, i], layers[:, i+1], color=colors[i])
plt.show()
``````

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`stackplot` might also make this easier. –  tcaswell Oct 17 '13 at 4:19
@tcaswell indeed, but for some reason I like the flexibility behind `fill_between` -- I feel better with fewer layers of packaging in utility functions ;-) –  nye17 Oct 17 '13 at 4:52
@tcaswell and nye17 - I am having problems adding labels to this plot. I tried passing the argument `label='nth quartile'` to `plt.fill_between` and then calling `pl.legend(loc=4)`, but in contrast to regular plots, no legend appears when using `plt.fill_between`. Am I missing something? –  Josh Oct 17 '13 at 13:08
@Josh You need to use proxy artists matplotlib.org/users/legend_guide.html#using-proxy-artist –  tcaswell Oct 17 '13 at 15:58