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Cox process representation and inference for stochastic reaction–diffusion processes

Author

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  • David Schnoerr

    (School of Biological Sciences, University of Edinburgh
    School of Informatics, University of Edinburgh
    SynthSys, University of Edinburgh)

  • Ramon Grima

    (School of Biological Sciences, University of Edinburgh
    SynthSys, University of Edinburgh)

  • Guido Sanguinetti

    (School of Informatics, University of Edinburgh
    SynthSys, University of Edinburgh)

Abstract

Complex behaviour in many systems arises from the stochastic interactions of spatially distributed particles or agents. Stochastic reaction–diffusion processes are widely used to model such behaviour in disciplines ranging from biology to the social sciences, yet they are notoriously difficult to simulate and calibrate to observational data. Here we use ideas from statistical physics and machine learning to provide a solution to the inverse problem of learning a stochastic reaction–diffusion process from data. Our solution relies on a non-trivial connection between stochastic reaction–diffusion processes and spatio-temporal Cox processes, a well-studied class of models from computational statistics. This connection leads to an efficient and flexible algorithm for parameter inference and model selection. Our approach shows excellent accuracy on numeric and real data examples from systems biology and epidemiology. Our work provides both insights into spatio-temporal stochastic systems, and a practical solution to a long-standing problem in computational modelling.

Suggested Citation

  • David Schnoerr & Ramon Grima & Guido Sanguinetti, 2016. "Cox process representation and inference for stochastic reaction–diffusion processes," Nature Communications, Nature, vol. 7(1), pages 1-11, September.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms11729
    DOI: 10.1038/ncomms11729
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