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PyRoss is a numerical library for mathematical modelling of infectious disease in Python. The library supports structured compartment models formulated stochastically (as chemical master equations) or deterministically (as systems of differential equations). A hybrid algorithm transits smoothly between these limits depending on the magnitude of the compartmental fluctions.
The library uses Gaussian process regression, on both the epidemiological manifold and its tangent space, to estimate model parameters given epidemiological data. These estimates are convolved with the instrinsic stochasticty of the dynamics to provide Bayesian forecasts of the progress of the epidemic.
Non-pharmaceutical interventions are implemented as controls on the contact structures of the model. Optimal control of these structures, given cost functions, is currently under development.
The library is designed to be model-agnostic. Currently implemented models are SIR, SIRS, SEIR, SEI5R, SIkR, SEkIkR, SEAIR, SEAI5R, and SEAIRQ.
The library is named after Sir Ronald Ross, doctor, mathematician and poet. In 1898 he made "the great discovery" in his laboratory in Calcutta "that malaria is conveyed by the bite of a mosquito". He won the Nobel Prize in 1902 and laid the foundations of the mathematical modelling of infectious diseases.
The authors are part of The Rapid Assistance in Modelling the Pandemic (RAMP) taskforce at the University of Cambridge. In alphabetical order, we are: Ronojoy Adhikari, Austen Bolitho, Tim Ekeh, Julian Kappler, Irene Li, Benjamin Remez, Paul Rohrbach, and Rajesh Singh.
Please read the PyRoss Wiki before you use PyRoss for your research. Open an issue, in preference to emailing us with queries. Issues can be shared with others with similar queries and you help the user community by communicating through issues. Thank you!
You can take PyRoss for a spin without installation: 
Clone (or download) the repository and use a terminal to install using
>> git clone https://github.com/rajeshrinet/pyross.git
>> cd pyross
>> python setup.py installpip install -e git+https://github.com/rajeshrinet/pyross.git#egg=pyross
PyRoss requires the following software
- Python 2.6+ or Python 3.4+
- Cython | Matplotlib | NumPy | Pandas | SciPy | xlrd | | cma | NLopt
- Optional dependencies : OdesPy (integrators) | pathos (parallelizing inference)
python -m unittest pyross.test (-v)
Age structure: Population Pyramid website.
Contact structure: Projecting social contact matrices in 152 countries using contact surveys and demographic data, Kiesha Prem, Alex R. Cook, Mark Jit, PLOS Computational Biology, (2017) DOI, Supporting Information Text and Supporting Information Data.
PyRoss has a formulation-agnostic and intuitive interface. Once a model is instantiated, stochastic, deterministic and hybrid simulations can performed through the same interface. The example below shows how to set up a deterministic SIR simulation. See the examples folder for more Jupyter notebook examples.
# Ex1: M=1, SIR
import numpy as np
import pyross
M = 1 # the SIR model has no age structure
Ni = 1000*np.ones(M) # so there is only one age group
N = np.sum(Ni) # and the total population is the size of this age group
beta = 0.2 # infection rate
gIa = 0.1 # recovery rate of asymptomatic infectives
gIs = 0.1 # recovery rate of symptomatic infectives
alpha = 0 # fraction of asymptomatic infectives
fsa = 1 # the self-isolation parameter
Ia0 = np.array([0]) # the SIR model has only one kind of infective
Is0 = np.array([1]) # we take these to be symptomatic
R0 = np.array([0]) # and assume there are no recovered individuals initially
S0 = N-(Ia0+Is0+R0) # initial susceptibles are obtained from S + Ia + Is + R = N
# there is no contact structure
def contactMatrix(t):
return np.identity(M)
# instantiate model
parameters = {'alpha':alpha, 'beta':beta, 'gIa':gIa, 'gIs':gIs, 'fsa':fsa}
model = pyross.deterministic.SIR(parameters, M, Ni)
# simulate model
Tf, Nt = 160, 160 # duration of simulation and data points
data = model.simulate(S0, Ia0, Is0, contactMatrix, Tf, Nt)- Age-structured impact of social distancing on the COVID-19 epidemic in India (arXiv:2003.12055, Research Gate). Rajesh Singh and R. Adhikari (2020).
This paper is amongst the top ten most read COVID-19 papers on Research Gate . The authors have received (literally) hundreds of emails with inquiries and apologise that they can no longer respond individually to these. Please read the Frequently Asked Questions in the first instance. The authors promise to include questions not covered in the FAQ as soon as possible.
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A partial list of news articles on PyRoss-based research: Zee News | The Weekend Leader | The Weather Channel | The Tribune | The Times of India | The Telegraph | The Northlines | The New Indian Express | Swarajya | Snoop Tales | Scroll.in | Rediff.com | The Quint | People's Reporter | News Bundle | Newsgram | Nature News | Mathrubhumi | liveMint | India New England News | India Today | Indian Express: Bangla | Indian Blooms | Dainik Bhaskar | CNN | CCN | Business Standard | Asiaville
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