In this work we examined the performance of two evolutionary algorithms, a genetic algorithm (GA) and particle swarm optimization (PSO), in the estimation of the parameters of a model for the growth kinetics of the yeast Debaryomyces hansenii. Fitting the model’s predictions simultaneously to three replicates of the same experiment, we used the variability among replicates as a criterion to evaluate the optimization result. The performance of the two algorithms was tested using 12 distinct settings for their operating parameters and running each of them 20 times. For the GA, the crossover fraction, crossover function and magnitude of mutation throughout the run of the algorithm were tested; for the PSO, we tested swarms with 3 different typ...
International audienceThis work investigates the potential of the particle swarm algorithm for the o...
The modelling of biochemical systems requires the knowledge of several quantitative parameters (e.g....
An important problem in systems biology is parameter estimation for biochemical system models. Our w...
Fermentation processes by nature are complex, time-varying, and highly nonlinear. As dynamic systems...
Fermentation processes as objects of modelling and high-quality control are characterized with inter...
Particle swarm optimization (PSO), as a novel evolutionary algorithm involved in social interaction ...
Almost all optimization techniques are restricted by the problems' dimensions and large search space...
In the field of Systems Biology, simulating the dynamics of biochemical models represents one of the...
AbstractSimple genetic algorithms have been investigated aiming to improve the algorithm convergence...
The ability to create “structured models” of biological simulations is becoming more and more common...
\u3cp\u3eIn the field of Systems Biology, simulating the dynamics of biochemical models represents o...
Several mathematical models have been developed to understand the interactions ofmicroorganisms in f...
The modelling of biochemical systems requires the knowledge of several quantitative parameters (e.g...
The optimization of biotechnological processes is a complex problem that has been intensively studie...
The optimization of the feeding trajectories in fed-batch fermentation processes is a complex proble...
International audienceThis work investigates the potential of the particle swarm algorithm for the o...
The modelling of biochemical systems requires the knowledge of several quantitative parameters (e.g....
An important problem in systems biology is parameter estimation for biochemical system models. Our w...
Fermentation processes by nature are complex, time-varying, and highly nonlinear. As dynamic systems...
Fermentation processes as objects of modelling and high-quality control are characterized with inter...
Particle swarm optimization (PSO), as a novel evolutionary algorithm involved in social interaction ...
Almost all optimization techniques are restricted by the problems' dimensions and large search space...
In the field of Systems Biology, simulating the dynamics of biochemical models represents one of the...
AbstractSimple genetic algorithms have been investigated aiming to improve the algorithm convergence...
The ability to create “structured models” of biological simulations is becoming more and more common...
\u3cp\u3eIn the field of Systems Biology, simulating the dynamics of biochemical models represents o...
Several mathematical models have been developed to understand the interactions ofmicroorganisms in f...
The modelling of biochemical systems requires the knowledge of several quantitative parameters (e.g...
The optimization of biotechnological processes is a complex problem that has been intensively studie...
The optimization of the feeding trajectories in fed-batch fermentation processes is a complex proble...
International audienceThis work investigates the potential of the particle swarm algorithm for the o...
The modelling of biochemical systems requires the knowledge of several quantitative parameters (e.g....
An important problem in systems biology is parameter estimation for biochemical system models. Our w...