Add to ORKGWe propose an adaptive control law that allows one to identify unstable steady states of the open-loop system in the single-species chemostat model without the knowledge of the growth function. We then show how to use a continuation method to reconstruct the whole graph of the growth function. Two variants, in continuous and discrete time, are presented. The case of two species in competition is also examined
The stabilization of chemostat models with delayed measurements is a challenging problem that is of ...
We study chemostat models with constant substrate input concentrations. We allow growth functions th...
We study a chemostat model with an arbitrary number of competing species, one substrate, and constan...
International audienceWe propose an adaptive control law that allows one to identify unstable steady...
International audienceWe consider the chemostat model with the substrate concentration as the single...
The stabilization of equilibria in chemostats with measurement delays is a complex and challenging p...
International audienceIn this paper, we consider a competition model between n species in a chemosta...
We revisit the chemostat model with Haldane growth function, here subject to bounded random disturba...
Chemostat models have a long history in the biological sciences as well as in biomathematics. Hither...
7 pagesIn this paper, we consider a competition model between $n$ species in a chemostat including b...
International audienceIn this work, we study a model of the chemostat where the species are present ...
International audienceWe study how a particular spatial structure with a buffer impacts the number o...
International audienceWe study a chemostat model with an arbitrary number of competing species, one ...
We provide a new control design for chemostats, under constant substrate input concentrations, using...
International audienceWe provide a new control design for chemostats, under constant substrate input...
The stabilization of chemostat models with delayed measurements is a challenging problem that is of ...
We study chemostat models with constant substrate input concentrations. We allow growth functions th...
We study a chemostat model with an arbitrary number of competing species, one substrate, and constan...
International audienceWe propose an adaptive control law that allows one to identify unstable steady...
International audienceWe consider the chemostat model with the substrate concentration as the single...
The stabilization of equilibria in chemostats with measurement delays is a complex and challenging p...
International audienceIn this paper, we consider a competition model between n species in a chemosta...
We revisit the chemostat model with Haldane growth function, here subject to bounded random disturba...
Chemostat models have a long history in the biological sciences as well as in biomathematics. Hither...
7 pagesIn this paper, we consider a competition model between $n$ species in a chemostat including b...
International audienceIn this work, we study a model of the chemostat where the species are present ...
International audienceWe study how a particular spatial structure with a buffer impacts the number o...
International audienceWe study a chemostat model with an arbitrary number of competing species, one ...
We provide a new control design for chemostats, under constant substrate input concentrations, using...
International audienceWe provide a new control design for chemostats, under constant substrate input...
The stabilization of chemostat models with delayed measurements is a challenging problem that is of ...
We study chemostat models with constant substrate input concentrations. We allow growth functions th...
We study a chemostat model with an arbitrary number of competing species, one substrate, and constan...