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Fast intensity inference

Project description

fast-intensity

authors: Thomas A. Lasko, Jacek Bajor, John Still

Overview

Fast density inference. Generates intensity curves from given events.

Installation

We only support Python 3 and above. We recommend using fast_intensity in a virtual environment; however, if you choose to install to a system-wide version of Python, be aware that some distributions will alias Python 3's pip as pip3. You should be able to verify which Python pip is associated with by running pip --version.

If you prefer to install a precompiled binary, we provide wheels for OS X and Linux (via the manylinux project). The basic pip install command line

$ pip install fast-intensity

should prefer one of our prebuilt binaries. Installation from source requires an environment with Cython, numpy, and scipy preinstalled.

$ pip install cython numpy scipy

Then you may install a release from source by specifying not to use a binary:

$ pip install fast-intensity --no-binary fast-intensity

(Yes, it is necessary to specify fast-intensity twice.) Alternately, to install the bleeding edge version:

$ git clone https://github.com/ComputationalMedicineLab/fast-intensity.git
$ cd fast-intensity
$ pip install -e .

Usage

%matplotlib inline
%load_ext cython
import matplotlib.pyplot as plt
import numpy as np
import datetime as dt
# If working locally rather than from a wheel or other binary
import pyximport
pyximport.install(language_level=3)
from fast_intensity import infer_intensity

np.random.seed(42)

# Specify a series of 100 events spread over a year
days = np.arange(0.0, 365)
np.random.shuffle(days)
events = np.sort(days[:100])

# Specify times (as reals) where we want to calculate the intensity of event occurrence
grid = np.linspace(1, 365, num=12)

# Generate the intensity curve - the unit is events per time unit
curve = infer_intensity(events, grid)
print(curve)
#     array([0.38953   , 0.27764734, 0.33549508, 0.27285165, 0.22284481, 0.16997545,
#            0.26651725, 0.23580527, 0.23351076, 0.25272662, 0.33146159, 0.28486727])

plt.style.use('ggplot')
fig, ax = plt.subplots(figsize=(9,9))
ax.scatter(events, np.zeros(len(events)), alpha='0.4', label='Events')
ax.scatter(grid, np.zeros(len(grid)) + 0.025, label='Grid')
ax.plot(grid, curve, label='Intensity')
plt.legend()
plt.show()

You can see how the intensity graph dips in the middle, where events are more thinly spaced, and rises near the beginning (where we have a high density of events).

figure

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