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pathogen.jl
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1
#685206
Simulation, visualization, and inference tools for modelling the spread of infectious diseases with Julia
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EIDMâ »
EIDMâ
EIDMââThe Emerging Infectious Diseases Modelling Initiative (EIDM) â by the Public Health Agency of Canada and NSERC â aims to establish multi-disciplinary network(s) of specialists across the country in modelling infectious diseases to be applied to public needs associated with emerging infectious diseases and pandemics such as COVID-19. [1]âF1CEB7
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Software
SoftwareâLearn more about the software being used across the EIDM network.âC78CB7
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Software programsââC78CB7
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pathogen.jl
pathogen.jlâSimulation, visualization, and inference tools for modelling the spread of infectious diseases with JuliaâC78CB7
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Julia »
Julia
JuliaââFFFACD
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Data analysis »
Data analysis
Data analysisââFFFACD
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Fitting dynamical models to data »
Fitting dynamical models to data
Fitting dynamical models to dataââFFFACD
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Simulation »
Simulation
SimulationââFFFACD
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Compartmental »
Compartmental
CompartmentalââFFFACD
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Agent-based »
Agent-based
Agent-basedââFFFACD
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Stochastic »
Stochastic
StochasticââFFFACD
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Rob Deardon »
Rob Deardon
Rob DeardonâAssociate Professor in the Department of Production Animal Health in the Faculty of Veterinary Medicine and the Department of Mathematics and Statistics in the Faculty of Science at the University of Calgary.âFFFACD
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Simulation »
Simulation
SimulationââFFFACD
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Agent-based models »
Agent-based models
Agent-based modelsââFFFACD
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Pathogens »
Pathogens
PathogensââFFFACD
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+Citations (
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[1]
pathogen.jl
Cité par:
David Price
10:11 PM 26 September 2021 GMT
URL:
https://github.com/jangevaare
Link
[2]
Pathogen.jl: Infectious Disease Transmission Network Modelling with Julia
En citant:
Justin Angevaare, Zeny Feng, Rob Deardon
Publication date:
25 August 2021
Publication info:
arXiv:2002.05850v3
Cité par:
David Price
2:45 PM 15 September 2022 GMT
URL:
https://debategraph.org/handler.ashx?path=ROOT%2fu2928%2f2002.05850.pdf&att=1
DOI:
https://doi.org/10.48550/arXiv.2002.05850
Extrait -
We introduce Pathogen.jl for simulation and inference of transmission network individual level models (TN-ILMs) of infectious disease spread in continuous time. TN-ILMs can be used to jointly infer transmission networks, event times, and model parameters within a Bayesian framework via Markov chain Monte Carlo (MCMC). We detail our specific strategies for conducting MCMC for TN-ILMs, and our implementation of these strategies in the Julia package, Pathogen.jl, which leverages key features of the Julia language. We provide an example using Pathogen.jl to simulate an epidemic following a susceptible-infectious-removed (SIR) TN-ILM, and then perform inference using observations that were generated from that epidemic. We also demonstrate the functionality of Pathogen.jl with an application of TN-ILMs to data from a measles outbreak that occurred in Hagelloch, Germany in 1861(Pfeilsticker 1863; Oesterle 1992).
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Entrée par:
David Price
NodeID:
#685206
Node type:
Resource
Date d'entrée (GMT):
9/26/2021 9:21:00 PM
Date de la derniĂšre modification (Heure GMT):
9/26/2021 9:21:00 PM
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