In this work, we study the problem of maximizing microbial production within a continuous stirred-tank reactor with n ≥ 1 species and one substrate. The interaction between species is described by the chemostat system including a mutation factor. The optimization problem falls into an optimal control problem of Lagrange type in which the control parameter is the dilution rate of the reactor. Thanks to the Pontryagin Maximum Principle, we obtain necessary conditions on optimal controls that involve a singular arc. These computations are highlighted thanks to numerical simulations via a direct method. We also study the related optimization problem at steady-state which provides an insight into optimal solutions of the optimal control problem ...
In this work, we revisit a problem of optimal control for the maximisation of biogas production in a...
International audienceThis paper proposes closed loop controls for microorganisms in the chemostat, ...
International audienceIn this work, we study a minimal time control problem for a perfectly mixed co...
In this work, we deal with the optimal control problem of maximizing biogas production in a chemosta...
In this paper, we consider the chemostat system with n ≥ 1 species, one limiting substrate, and muta...
International audienceIn nature, microorganisms are continuously facing nutrient availability change...
International audienceWe design a simple model of the growth of polymer-decomposing bacteria in a co...
International audienceIn nature, microorganisms are continuously facing nutrient availability change...
We consider the problem of maximization of metabolite production in bacterial cells formulated as a ...
We consider the problem of driving in minimal time a system describing a chemostat model to a target...
International audienceWe design a simple model of the growth ofpolysaccharide-decomposing bacteria i...
The study of living microorganisms using resource allocation models has been key in elucidating natu...
In this work, we study a two species chemostat model with one limiting substrate, and our aim is to ...
In this work we study the optimal control problem of maximizing the average biogas production over a...
This paper is devoted to the study of an optimal control problem under the presence of a saturation ...
In this work, we revisit a problem of optimal control for the maximisation of biogas production in a...
International audienceThis paper proposes closed loop controls for microorganisms in the chemostat, ...
International audienceIn this work, we study a minimal time control problem for a perfectly mixed co...
In this work, we deal with the optimal control problem of maximizing biogas production in a chemosta...
In this paper, we consider the chemostat system with n ≥ 1 species, one limiting substrate, and muta...
International audienceIn nature, microorganisms are continuously facing nutrient availability change...
International audienceWe design a simple model of the growth of polymer-decomposing bacteria in a co...
International audienceIn nature, microorganisms are continuously facing nutrient availability change...
We consider the problem of maximization of metabolite production in bacterial cells formulated as a ...
We consider the problem of driving in minimal time a system describing a chemostat model to a target...
International audienceWe design a simple model of the growth ofpolysaccharide-decomposing bacteria i...
The study of living microorganisms using resource allocation models has been key in elucidating natu...
In this work, we study a two species chemostat model with one limiting substrate, and our aim is to ...
In this work we study the optimal control problem of maximizing the average biogas production over a...
This paper is devoted to the study of an optimal control problem under the presence of a saturation ...
In this work, we revisit a problem of optimal control for the maximisation of biogas production in a...
International audienceThis paper proposes closed loop controls for microorganisms in the chemostat, ...
International audienceIn this work, we study a minimal time control problem for a perfectly mixed co...