CHINESTA, Francisco; MAGNIN, Morgan; ROUX, Olivier; AMMAR, Amine; CUETO, Elías

doi:10.3390/e17041896

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CHINESTA, Francisco
Institut de Recherche en Génie Civil et Mécanique [GeM]

MAGNIN, Morgan
Institut de Recherche en Communications et en Cybernétique de Nantes [IRCCyN]

ROUX, Olivier
Institut de Recherche en Communications et en Cybernétique de Nantes [IRCCyN]

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Entropy. 2015-04, vol. 17, n° 4, p. 1896-1915

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In this work, we begin by considering the qualitative modeling of biological regulatory systems using process hitting, from which we define its probabilistic counterpart by considering the chemical master equation within a kinetic theory framework. The last equation is efficiently solved by considering a separated representation within the proper generalized decomposition framework that allows circumventing the so-called curse of dimensionality. Finally, model parameters can be added as extra-coordinates in order to obtain a parametric solution of the model.< Leer menos

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statistical mechanics

kinetic theory

chemical master equation

proper generalized decomposition (PGD)

qualitative modeling

process hitting

biological regulatory networks

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Kinetic Theory Modeling and Efficient Numerical Simulation of Gene Regulatory Networks Based on Qualitative Descriptions

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