International audienceWe study minimal time strategies for the treatment of pollution in large water volumes, such as lakes or natural reservoirs, with the help of an autonomous bioreactor. The control consists of feeding the bioreactor from the resource, with clean output returning to the resource with the same flow rate. We first recall recent characterizations of optimal policies among feedback controls under the assumption of a uniform concentration in the resource, in which the optimal flow rate decreases with time. Then, we introduce a dead zone in the resource, considering two measurement points. With the help of the Pontryagin Maximum Principle, we show that this variant has no influence on the optimal control law. This study advise...
AbstractIn situ bioremediation is a remediation technology in which the indigenous subsurface bacter...
In this work, a model of a waste water treatment plant is investigated. The model is described by a...
This thesis consists of two parts. In the first part we study minimal time strategies for the treatm...
We study minimal time strategies for the treatment of pollution in large water volumes, such as lake...
We study minimal time strategies for the treatment of pollution in large water volumes, such as lake...
International audienceWe study minimal time strategies for the treatment of pollution of large volum...
This paper studies the bioremediation, in minimal time, of a water resource or reservoir using a sin...
International audienceWe study minimal time strategies for the treatment of pollution of large volum...
International audienceThis paper studies the bioremediation, in minimal time, of a water resource or...
This paper studies the bioremediation, in minimal time, of a water resource or reservoir using a sin...
We revisit the minimal time problem of in-situ decontamination of large water resources with a biore...
In this work, we study optimal and suboptimal control strategies for the treatment of a polluted wat...
In this work, we study optimal and suboptimal control strategies for the treatment of a polluted wat...
This thesis consists of two parts. In the first part we study minimal time strategies for the treatm...
Modemic GroupInternational audienceWe show how to combine numerical schemes and adjustement of syste...
AbstractIn situ bioremediation is a remediation technology in which the indigenous subsurface bacter...
In this work, a model of a waste water treatment plant is investigated. The model is described by a...
This thesis consists of two parts. In the first part we study minimal time strategies for the treatm...
We study minimal time strategies for the treatment of pollution in large water volumes, such as lake...
We study minimal time strategies for the treatment of pollution in large water volumes, such as lake...
International audienceWe study minimal time strategies for the treatment of pollution of large volum...
This paper studies the bioremediation, in minimal time, of a water resource or reservoir using a sin...
International audienceWe study minimal time strategies for the treatment of pollution of large volum...
International audienceThis paper studies the bioremediation, in minimal time, of a water resource or...
This paper studies the bioremediation, in minimal time, of a water resource or reservoir using a sin...
We revisit the minimal time problem of in-situ decontamination of large water resources with a biore...
In this work, we study optimal and suboptimal control strategies for the treatment of a polluted wat...
In this work, we study optimal and suboptimal control strategies for the treatment of a polluted wat...
This thesis consists of two parts. In the first part we study minimal time strategies for the treatm...
Modemic GroupInternational audienceWe show how to combine numerical schemes and adjustement of syste...
AbstractIn situ bioremediation is a remediation technology in which the indigenous subsurface bacter...
In this work, a model of a waste water treatment plant is investigated. The model is described by a...
This thesis consists of two parts. In the first part we study minimal time strategies for the treatm...