Add to ORKGIn this paper, a novel meta-heuristics algorithm, namely the Firefly Algorithm (FA), is adapted and applied for a model parameter identification of an E. coli fed-batch cultivation process. A system of ordinary nonlinear differential equations is used to model the biomass growth and substrate utilization. Parameter optimization is performed using real experimental data set from an E. coli MC4110 fed-batch cultivation process. The FA adjustments are done based on several pre-tests according to the optimization problem considered here. The simulation results indicate that the applied algorithm is effective and efficient. As a result, a model with high degree of accuracy is obtained applying the FA
In this work, Evolutionary Algorithms (EAs) are used to achieve optimal feedforward control in a rec...
The optimization of the feeding trajectories in fed-batch fermentation processes is a complex proble...
The paper presents the implementation of multiple model approach to modelling of Escherichia coli BL...
In this paper the metaheuristic Simulated Annealing (SA) is applied for parameter identification of ...
In this work a genetic algorithm is proposed with the purpose of the feeding trajectory optimization...
The development of accurate computational models of biological processes is fundamental to computati...
Two optimisation techniques for the fed-batch cultivation of high cell density Escherichia coli prod...
Two optimisation techniques for the fed-batch cultivation of high cell density Escherichia coli prod...
In this paper optimal control algorithms for two E. coli fed-batch fermentations are developed. Fed-...
An optimal experimental design for yield coefficients estimation in an unstructured growth model of...
In this work, a genetic algorithm was used to estimate both yield and kinetic coefficients of an uns...
In this work, Evolutionary Algorithms (EAs) are used to control a recombinant bacterial fed-batch fe...
Many high-demand industrial products are generated by microorganisms, including fuels, food, vitamin...
One of the key aspects of computational systems biology is the investigation on the dynamic biologic...
The optimization of the feeding trajectories in fed-batch fermentation processes is a complex proble...
In this work, Evolutionary Algorithms (EAs) are used to achieve optimal feedforward control in a rec...
The optimization of the feeding trajectories in fed-batch fermentation processes is a complex proble...
The paper presents the implementation of multiple model approach to modelling of Escherichia coli BL...
In this paper the metaheuristic Simulated Annealing (SA) is applied for parameter identification of ...
In this work a genetic algorithm is proposed with the purpose of the feeding trajectory optimization...
The development of accurate computational models of biological processes is fundamental to computati...
Two optimisation techniques for the fed-batch cultivation of high cell density Escherichia coli prod...
Two optimisation techniques for the fed-batch cultivation of high cell density Escherichia coli prod...
In this paper optimal control algorithms for two E. coli fed-batch fermentations are developed. Fed-...
An optimal experimental design for yield coefficients estimation in an unstructured growth model of...
In this work, a genetic algorithm was used to estimate both yield and kinetic coefficients of an uns...
In this work, Evolutionary Algorithms (EAs) are used to control a recombinant bacterial fed-batch fe...
Many high-demand industrial products are generated by microorganisms, including fuels, food, vitamin...
One of the key aspects of computational systems biology is the investigation on the dynamic biologic...
The optimization of the feeding trajectories in fed-batch fermentation processes is a complex proble...
In this work, Evolutionary Algorithms (EAs) are used to achieve optimal feedforward control in a rec...
The optimization of the feeding trajectories in fed-batch fermentation processes is a complex proble...
The paper presents the implementation of multiple model approach to modelling of Escherichia coli BL...