Many biotechnological processes have optimal substrate concentrations where a maximum growth rate is achieved. In this work an extremum seeking controller and a gradient estimator are proposed to maximize the growth rate in fed-batch bioprocesses even when the substrate to growth rate map is unknown. Both the controller and estimator are obtained with high order sliding mode algorithms. Stability proofs are given, and tools to tune the algorithms in terms of bounds of the hessian of the map are derived. Simulation results that illustrate the performance of the controller are shown.Fil: Jamilis Ricaldoni, Martín Ignacio. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata. Instituto de...
The problem of optimal profiles tracking control under uncertainties for a nonlinear fed-batch biopr...
This paper presents a unifying methodology for optimization of biotechnological processes, namely op...
In this paper, we present an adaptive extremum seeking control scheme for continuous stirred tank bi...
A novel extremum seeking scheme is proposed for the optimization of the specific growth rate in fed-...
In this paper, we present an extremum-seeking scheme based on an approach to variable structure cont...
This paper addresses the control of biomass growth rate in fed-batch bioreactors. The main difficult...
In this paper, we present an adaptive extremum seeking control scheme for fed-batch bioreactors with...
The aim of this paper is to investigate, via a case study, an adaptive extremum seeking control sche...
This paper is concerned with the real-time optimization of fed-batch bioreactors with Haldane kineti...
This paper is concerned with the real-time optimization of fed-batch bioreactors with Haldane kineti...
In this paper, we present an adaptive extremum seeking controlscheme for fed-batch bioreactors with ...
Finding optimal operating modes for bioprocesses has been, for a long time, a relevant issue in bioe...
This paper deals with the design of feeding rates for dual-substrate fed-batch processes where the m...
Finding optimal operating modes for bioprocesses has been, for a long time, a relevant issue in bioe...
This paper is concerned with the design of an adaptive extremum seeking control scheme for a mass st...
The problem of optimal profiles tracking control under uncertainties for a nonlinear fed-batch biopr...
This paper presents a unifying methodology for optimization of biotechnological processes, namely op...
In this paper, we present an adaptive extremum seeking control scheme for continuous stirred tank bi...
A novel extremum seeking scheme is proposed for the optimization of the specific growth rate in fed-...
In this paper, we present an extremum-seeking scheme based on an approach to variable structure cont...
This paper addresses the control of biomass growth rate in fed-batch bioreactors. The main difficult...
In this paper, we present an adaptive extremum seeking control scheme for fed-batch bioreactors with...
The aim of this paper is to investigate, via a case study, an adaptive extremum seeking control sche...
This paper is concerned with the real-time optimization of fed-batch bioreactors with Haldane kineti...
This paper is concerned with the real-time optimization of fed-batch bioreactors with Haldane kineti...
In this paper, we present an adaptive extremum seeking controlscheme for fed-batch bioreactors with ...
Finding optimal operating modes for bioprocesses has been, for a long time, a relevant issue in bioe...
This paper deals with the design of feeding rates for dual-substrate fed-batch processes where the m...
Finding optimal operating modes for bioprocesses has been, for a long time, a relevant issue in bioe...
This paper is concerned with the design of an adaptive extremum seeking control scheme for a mass st...
The problem of optimal profiles tracking control under uncertainties for a nonlinear fed-batch biopr...
This paper presents a unifying methodology for optimization of biotechnological processes, namely op...
In this paper, we present an adaptive extremum seeking control scheme for continuous stirred tank bi...