Add to ORKGPopulation dynamics and in particular microbial population dynamics, though they are complex but also intrinsically discrete and random, are conventionally rep-resented as deterministic differential equations systems. We propose to revisit this approach by complementing these classic formalisms by stochastic formalisms and to explain the links between these representations in terms of mathematical analysis but also in terms of modeling and numerical simulations. We illustrate this approach on the model of chemostat
International audienceIn the context of biology and ecology, stochastic differential equations (SDE)...
International audienceInvented by J. Monod, and independently by A. Novick and L. Szilard, in 1950, ...
International audienceThe chemostat is classically represented, at high popula- tion scale, as a sys...
Population dynamics and in particular microbial population dynamics, though they are complex but als...
International audiencePopulation dynamics and in particular microbial population dynamics, though in...
International audiencePopulation dynamics and in particular microbial population dynamics, though in...
International audiencePopulation dynamics and in particular microbial population dynamics, though in...
International audienceThe chemostat is classically represented, at large population scale, as a syst...
International audienceThe evolution of the state of a single species/single substrate chemostat is u...
International audienceWe propose a model of chemostat where the bacterial population is individually...
We propose a model of chemostat where the bacterial population is individually-based, each bacterium...
In this talk, some different ways of modeling stochastic chemostats will be presented in order to ob...
International audienceInvented by J. Monod, and independently by A. Novick and L. Szilard, in 1950, ...
International audienceIn the context of biology and ecology, stochastic differential equations (SDE)...
International audienceIn the context of biology and ecology, stochastic differential equations (SDE)...
International audienceIn the context of biology and ecology, stochastic differential equations (SDE)...
International audienceInvented by J. Monod, and independently by A. Novick and L. Szilard, in 1950, ...
International audienceThe chemostat is classically represented, at high popula- tion scale, as a sys...
Population dynamics and in particular microbial population dynamics, though they are complex but als...
International audiencePopulation dynamics and in particular microbial population dynamics, though in...
International audiencePopulation dynamics and in particular microbial population dynamics, though in...
International audiencePopulation dynamics and in particular microbial population dynamics, though in...
International audienceThe chemostat is classically represented, at large population scale, as a syst...
International audienceThe evolution of the state of a single species/single substrate chemostat is u...
International audienceWe propose a model of chemostat where the bacterial population is individually...
We propose a model of chemostat where the bacterial population is individually-based, each bacterium...
In this talk, some different ways of modeling stochastic chemostats will be presented in order to ob...
International audienceInvented by J. Monod, and independently by A. Novick and L. Szilard, in 1950, ...
International audienceIn the context of biology and ecology, stochastic differential equations (SDE)...
International audienceIn the context of biology and ecology, stochastic differential equations (SDE)...
International audienceIn the context of biology and ecology, stochastic differential equations (SDE)...
International audienceInvented by J. Monod, and independently by A. Novick and L. Szilard, in 1950, ...
International audienceThe chemostat is classically represented, at high popula- tion scale, as a sys...