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Parameter Estimation Methods for Chaotic Intercellular Networks
Authors:Inés P. Mari?o  Ekkehard Ullner  Alexey Zaikin
Affiliation:1. Departamento de Física, Universidad Rey Juan Carlos, Móstoles, Madrid, Spain.; 2. Department of Physics, Institute for Complex Systems and Mathematical Biology and Institute of Medical Sciences, University of Aberdeen, Aberdeen, United Kingdom.; 3. Institute for Women Health and Department of Mathematics, University College London, London, United Kingdom.; 4. Department of Mathematics, King Abdulaziz University, Jeddah, Saudi Arabia.; Humboldt University, Germany,
Abstract:We have investigated simulation-based techniques for parameter estimation in chaotic intercellular networks. The proposed methodology combines a synchronization–based framework for parameter estimation in coupled chaotic systems with some state–of–the–art computational inference methods borrowed from the field of computational statistics. The first method is a stochastic optimization algorithm, known as accelerated random search method, and the other two techniques are based on approximate Bayesian computation. The latter is a general methodology for non–parametric inference that can be applied to practically any system of interest. The first method based on approximate Bayesian computation is a Markov Chain Monte Carlo scheme that generates a series of random parameter realizations for which a low synchronization error is guaranteed. We show that accurate parameter estimates can be obtained by averaging over these realizations. The second ABC–based technique is a Sequential Monte Carlo scheme. The algorithm generates a sequence of “populations”, i.e., sets of randomly generated parameter values, where the members of a certain population attain a synchronization error that is lesser than the error attained by members of the previous population. Again, we show that accurate estimates can be obtained by averaging over the parameter values in the last population of the sequence. We have analysed how effective these methods are from a computational perspective. For the numerical simulations we have considered a network that consists of two modified repressilators with identical parameters, coupled by the fast diffusion of the autoinducer across the cell membranes.
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