International audienceThis work addresses the problem of robust control of the continuous bioreactor-namely the chemostat-using an observer-based approach. We design a control law aiming to regulate the growth of a certain species and to stabilize the output-a growth-associated product of interest-in a prescribed level. In addition, to avoid the single-species dogma (which takes only one species into account for control design), we add to the microbial community unknown species competing for the limiting substrate. Finally, this control architecture is able to maintain the productivity, despite this competing heterogeneity (or biodiversity) of the community
Synthetic Biology is a new field of research that aims at engineering new functionalities in living ...
[EN] This work revisits the dynamic behaviour of stirred continuous reactors in which a single biore...
International audienceThis paper proposes closed loop controls for microorganisms in the chemostat, ...
International audienceThis work addresses the problem of robust control of the continuous bioreactor...
International audienceThis work addresses the problem of robust stabilization of the concentrations ...
International audienceThis work addresses the problem of robust stabilizationof the concentration of...
International audienceIn this paper, the problem of state estimation of a bioreactor containing a si...
International audienceThe design of control laws for bioprocesses are generally based on simplified ...
International audienceSingle-species models are generally used for the design of bioprocess control ...
Multi-species microbial communities are widespread in natural ecosystems. When employed for biomanuf...
The purpose of this paper is to present an observer-based control design with application to continu...
Multi-species microbial communities are widespread in natural ecosystems. When employed for biomanuf...
Anaerobic reactors are a typical example of processes that exhibit non-linear behavior and, also tim...
International audienceWe show preliminary results addressing the problem of resource allocation in b...
This thesis is divided into two main parts. First, the objective is to investigate control and estim...
Synthetic Biology is a new field of research that aims at engineering new functionalities in living ...
[EN] This work revisits the dynamic behaviour of stirred continuous reactors in which a single biore...
International audienceThis paper proposes closed loop controls for microorganisms in the chemostat, ...
International audienceThis work addresses the problem of robust control of the continuous bioreactor...
International audienceThis work addresses the problem of robust stabilization of the concentrations ...
International audienceThis work addresses the problem of robust stabilizationof the concentration of...
International audienceIn this paper, the problem of state estimation of a bioreactor containing a si...
International audienceThe design of control laws for bioprocesses are generally based on simplified ...
International audienceSingle-species models are generally used for the design of bioprocess control ...
Multi-species microbial communities are widespread in natural ecosystems. When employed for biomanuf...
The purpose of this paper is to present an observer-based control design with application to continu...
Multi-species microbial communities are widespread in natural ecosystems. When employed for biomanuf...
Anaerobic reactors are a typical example of processes that exhibit non-linear behavior and, also tim...
International audienceWe show preliminary results addressing the problem of resource allocation in b...
This thesis is divided into two main parts. First, the objective is to investigate control and estim...
Synthetic Biology is a new field of research that aims at engineering new functionalities in living ...
[EN] This work revisits the dynamic behaviour of stirred continuous reactors in which a single biore...
International audienceThis paper proposes closed loop controls for microorganisms in the chemostat, ...